One trick people have pulled in the past is to write a driver that produces a “fake” PCI IO Protocol. The “fake” PCI IO driver abstracts how the MMIO device shows up on the platform. This works well if the MMIO device is really the same IP block as a PCI device. This usually maps to the PCI BAR being the same thing as the magic MMIO range. The “fake” PCI IO Protocol also abstracts platform specific DMA rules from the generic driver. 

Thanks,

Andrew Fish

> On Apr 27, 2021, at 2:08 AM, Loh, Tien Hock <tien.hock.loh@intel.com> wrote:
> 
> Hi Mike
> 
> Yes, the existing Sd driver is very tightly coupled with PCI IO struct, thus the reason for a new driver. 
> I can attempt to refactor the Pci/SdMmcPciHcDxe and make PCI and Mmio a library if that's the best route. I remember I tried briefly to refactor the code but it was quite a bit of work.
> 
> Let me give it another go, and get back to you. 
> 
> Thanks.
> 
> 
>> -----Original Message-----
>> From: Kinney, Michael D <michael.d.kinney@intel.com <mailto:michael.d.kinney@intel.com>>
>> Sent: Tuesday, April 27, 2021 1:54 AM
>> To: Loh, Tien Hock <tien.hock.loh@intel.com <mailto:tien.hock.loh@intel.com>>; devel@edk2.groups.io <mailto:devel@edk2.groups.io>;
>> Kinney, Michael D <michael.d.kinney@intel.com <mailto:michael.d.kinney@intel.com>>
>> Cc: thloh85@gmail.com <mailto:thloh85@gmail.com>; Leif Lindholm <leif@nuviainc.com <mailto:leif@nuviainc.com>>; Ard Biesheuvel
>> <ardb+tianocore@kernel.org <mailto:ardb+tianocore@kernel.org>>
>> Subject: RE: [PATCH V5 1/1] EmbeddedPkg: DwMmcHcDxe: Add support for
>> Designware SDMMC driver
>> 
>> I see the MdeModulePkg has the SdMmcPciHcDxe module and it uses the
>> EDK II SD MMC Override
>> Protocol for host controller specific behaviors.  Why was this driver and an
>> implementation
>> of the EDK II SD MMC Override Protocol for the DesignWare MMC HC not
>> used?
>> 
>> If there is a good reason that this exiting module and override extensions can
>> not be used,
>> then please add that background and analysis to the BZ.
>> 
>> I see the existing module is PCI and I think this new one is for a MMIO based
>> device
>> that requires different DMA services.  Is this correct?  I am wondering if there
>> is
>> a way to implement t a single UEFI Driver sources that can support a device
>> that is
>> with PCI or MMIO?
>> 
>> If a new driver is required, then here is some more specific code review
>> feedback:
>> 
>> 1) EmbeddedPkg/Include/Protocol/PlatformSwMmc.h
>> 
>>   The enum EFI_SD_MMC_SLOT_TYPE can not being with EFI_ unless is part
>> of the UEFI Spec.
>>   This file appears to be specific to DW, so perhaps it should be prefixed with
>> DW_ instead
>>   to match the usage of DW_MMC_HC_SLOT_CAP.
>> 
>>   The same comment applies to SD_MMC_CARD_TYPE.  Should that be
>> DW_SD_MMC_CARD_TYPE?
>> 
>> 
>> 2) EmbeddedPkg/Drivers/DwMmcHcDxe
>>   a) There is a package .dec file in this directory.  Packages can never be
>> nested. Any
>>      interfaces that need to be exported from the EmbeddedPkg should be
>> declared in
>>      EmbeddedPkg.dec and DwMmcDcDxe.dec should be removed.
>>   b) DwMmcDcDxe.dec declared a token space GUID, but there are not PCDs.
>> I think this GUID
>>      can be removed.
>>   c) DwMmcDcDxe.inf.  Remove reference to DwMmcDcDxe.dec.  Also, is this
>> UEFI Driver really
>>      ARM specific?  Why is there a dependency on ArmPkg/ArmPkg.dec?  Can
>> that be removed?
>>      Can the dependency on ArmLib be removed?
>> 
>> 3) I see use of #ifdef in the DwMmcHci.h file.  This is highly discouraged.  Why
>> are
>>   those there and why not use featured flags PCD instead?  If it is related to
>> the
>>   PCI vs MMIO register mapping, then perhaps the PCI related content can
>> be removed
>>   from this MMIO specific driver?
>> 
>> Best regards,
>> 
>> Mike
>> 
>>> -----Original Message-----
>>> From: Loh, Tien Hock <tien.hock.loh@intel.com>
>>> Sent: Sunday, March 21, 2021 8:25 PM
>>> To: devel@edk2.groups.io
>>> Cc: thloh85@gmail.com; Loh, Tien Hock <tien.hock.loh@intel.com>; Kinney,
>> Michael D <michael.d.kinney@intel.com>; Leif
>>> Lindholm <leif@nuviainc.com>; Ard Biesheuvel
>> <ardb+tianocore@kernel.org>
>>> Subject: [PATCH V5 1/1] EmbeddedPkg: DwMmcHcDxe: Add support for
>> Designware SDMMC driver
>>> 
>>> From: "Tien Hock, Loh" <tien.hock.loh@intel.com>
>>> 
>>> This adds support for Designware SDMMC driver. The SDMMC driver
>> depends on
>>> MdeModulePkg/Bus/Sd/, and produces
>> EFI_SD_MMC_PASS_THRU_PROTOCOL. The
>>> driver uses MMIO to read/write, and uses
>>> gEdkiiNonDiscoverableDeviceProtocolGuid. Platform needs to register
>> device
>>> with gEdkiiNonDiscoverableDeviceProtocolGuid.
>>> 
>>> Signed-off-by: Loh Tien Hock <tien.hock.loh@intel.com>
>>> Cc: Leif Lindholm <leif@nuviainc.com>
>>> Cc: Ard Biesheuvel <ardb+tianocore@kernel.org>
>>> ---
>>> EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.dec  |   40 +
>>> EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.inf  |   70 +
>>> EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.h    |  817
>> ++++++++++
>>> EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHci.h      |  985
>> ++++++++++++
>>> EmbeddedPkg/Include/Protocol/PlatformDwMmc.h   |   79 +
>>> EmbeddedPkg/Drivers/DwMmcHcDxe/ComponentName.c |  214 +++
>>> EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.c    | 1296
>> ++++++++++++++++
>>> EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHci.c      | 1602
>> ++++++++++++++++++++
>>> EmbeddedPkg/Drivers/DwMmcHcDxe/EmmcDevice.c    | 1042
>> +++++++++++++
>>> EmbeddedPkg/Drivers/DwMmcHcDxe/SdDevice.c      | 1105
>> ++++++++++++++
>>> 10 files changed, 7250 insertions(+)
>>> 
>>> diff --git a/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.dec
>> b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.dec
>>> new file mode 100644
>>> index 000000000000..cf85ccb1a030
>>> --- /dev/null
>>> +++ b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.dec
>>> @@ -0,0 +1,40 @@
>>> +#/** @file
>>> +# Framework Module Development Environment Industry Standards
>>> +#
>>> +# This Package provides headers and libraries that conform to EFI/PI
>> Industry standards.
>>> +# Copyright (c) 2007, Intel Corporation. All rights reserved.<BR>
>>> +# Copyright (c) 2012-2014, ARM Ltd. All rights reserved.<BR>
>>> +# Copyright (c) 2018, Linaro. All rights reserved.<BR>
>>> +#
>>> +#    This program and the accompanying materials are licensed and made
>> available under
>>> +#    the terms and conditions of the BSD License which accompanies this
>> distribution.
>>> +#    The full text of the license may be found at
>>> +#    http://opensource.org/licenses/bsd-license.php
>>> +#
>>> +#    THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS"
>> BASIS,
>>> +#    WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER
>> EXPRESS OR IMPLIED.
>>> +#
>>> +#**/
>>> +
>>> +[Defines]
>>> +  DEC_SPECIFICATION              = 0x00010019
>>> +  PACKAGE_NAME                   = DwMmcHcDxePkg
>>> +  PACKAGE_GUID                   = e73097ce-1fe2-41a6-a930-3136bc6d23ef
>>> +  PACKAGE_VERSION                = 0.1
>>> +
>>> +
>>> 
>> +#########################################################
>> #######################
>>> +#
>>> +# Include Section - list of Include Paths that are provided by this package.
>>> +#                   Comments are used for Keywords and Module Types.
>>> +#
>>> +# Supported Module Types:
>>> +#  BASE SEC PEI_CORE PEIM DXE_CORE DXE_DRIVER
>> DXE_RUNTIME_DRIVER DXE_SMM_DRIVER DXE_SAL_DRIVER UEFI_DRIVER
>>> UEFI_APPLICATION
>>> +#
>>> 
>> +#########################################################
>> #######################
>>> +
>>> +[Guids.common]
>>> +  gDwMmcHcDxeTokenSpaceGuid     = { 0x576c132e, 0x7d51, 0x4abb, {
>> 0xbc, 0x60, 0x13, 0x08, 0x04, 0x0e, 0x90, 0x92 }}
>>> +
>>> +[Protocols.common]
>>> +  gPlatformDwMmcProtocolGuid    = { 0x1d6dfde5, 0x76a7, 0x4404, { 0x85,
>> 0x74, 0x7a, 0xdf, 0x1a, 0x8a, 0xa2, 0x0d }}
>>> diff --git a/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.inf
>> b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.inf
>>> new file mode 100644
>>> index 000000000000..4cd0960ef9c3
>>> --- /dev/null
>>> +++ b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.inf
>>> @@ -0,0 +1,70 @@
>>> +## @file
>>> +#  DwSdMmcHcDxe driver is used to manage those host controllers which
>> comply with
>>> +#  Designware SD Host Controller.
>>> +#
>>> +#  It will produce EFI_SD_MMC_PASS_THRU_PROTOCOL to allow sending
>> SD/MMC/eMMC cmds
>>> +#  to specified devices from upper layer.
>>> +#
>>> +#  Copyright (c) 2015, Intel Corporation. All rights reserved.<BR>
>>> +#  Copyright (C) 2016, Marvell International Ltd. All rights reserved.<BR>
>>> +#  Copyright (c) 2018, Linaro Ltd. All rights reserved.<BR>
>>> +#
>>> +#  This program and the accompanying materials
>>> +#  are licensed and made available under the terms and conditions of the
>> BSD License
>>> +#  which accompanies this distribution. The full text of the license may be
>> found at
>>> +#  http://opensource.org/licenses/bsd-license.php
>>> +#  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS"
>> BASIS,
>>> +#  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER
>> EXPRESS OR IMPLIED.
>>> +#
>>> +#
>>> +##
>>> +
>>> +[Defines]
>>> +  INF_VERSION                    = 0x00010019
>>> +  BASE_NAME                      = DwMmcHcDxe
>>> +  MODULE_UNI_FILE                = DwMmcHcDxe.uni
>>> +  FILE_GUID                      = 9be4d260-208c-4efe-a524-0b5d3bf77f9d
>>> +  MODULE_TYPE                    = UEFI_DRIVER
>>> +  VERSION_STRING                 = 1.0
>>> +  ENTRY_POINT                    = InitializeDwMmcHcDxe
>>> +
>>> +[Sources]
>>> +  ComponentName.c
>>> +  DwMmcHcDxe.c
>>> +  DwMmcHcDxe.h
>>> +  DwMmcHci.c
>>> +  DwMmcHci.h
>>> +  EmmcDevice.c
>>> +  SdDevice.c
>>> +
>>> +[Packages]
>>> +  ArmPkg/ArmPkg.dec
>>> +  EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.dec
>>> +  EmbeddedPkg/EmbeddedPkg.dec
>>> +  MdeModulePkg/MdeModulePkg.dec
>>> +  MdePkg/MdePkg.dec
>>> +
>>> +[LibraryClasses]
>>> +  ArmLib
>>> +  BaseLib
>>> +  BaseMemoryLib
>>> +  CacheMaintenanceLib
>>> +  DebugLib
>>> +  DevicePathLib
>>> +  DmaLib
>>> +  MemoryAllocationLib
>>> +  TimerLib
>>> +  UefiBootServicesTableLib
>>> +  UefiDriverEntryPoint
>>> +  UefiLib
>>> +  UefiRuntimeServicesTableLib
>>> +
>>> +[Protocols]
>>> +  gEdkiiNonDiscoverableDeviceProtocolGuid
>>> +  gEfiDevicePathProtocolGuid                    ## TO_START
>>> +  gEfiPciIoProtocolGuid                         ## TO_START
>>> +  gEfiSdMmcPassThruProtocolGuid                 ## BY_START
>>> +  gPlatformDwMmcProtocolGuid
>>> +
>>> +[UserExtensions.TianoCore."ExtraFiles"]
>>> +  DwMmcHcDxeExtra.uni
>>> diff --git a/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.h
>> b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.h
>>> new file mode 100644
>>> index 000000000000..b783d9830325
>>> --- /dev/null
>>> +++ b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.h
>>> @@ -0,0 +1,817 @@
>>> +/** @file
>>> +
>>> +  Provides some data structure definitions used by the Designware
>> SD/MMC
>>> +  host controller driver.
>>> +
>>> +  Copyright (c) 2015, Intel Corporation. All rights reserved.<BR>
>>> +  Copyright (C) 2018, Linaro Ltd. All rigths reserved.<BR>
>>> +
>>> +  This program and the accompanying materials are licensed and made
>> available
>>> +  under the terms and conditions of the BSD License which accompanies
>> this
>>> +  distribution.  The full text of the license may be found at
>>> +  http://opensource.org/licenses/bsd-license.php
>>> +
>>> +  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS"
>> BASIS,
>>> +  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER
>> EXPRESS OR IMPLIED.
>>> +
>>> +**/
>>> +
>>> +#ifndef _DW_MMC_HC_DXE_H_
>>> +#define _DW_MMC_HC_DXE_H_
>>> +
>>> +#include <Uefi.h>
>>> +
>>> +#include <Library/UefiLib.h>
>>> +
>>> +#include <Protocol/ComponentName.h>
>>> +#include <Protocol/ComponentName2.h>
>>> +#include <Protocol/DeviceIo.h>
>>> +#include <Protocol/DriverBinding.h>
>>> +#include <Protocol/SdMmcPassThru.h>
>>> +
>>> +#include "DwMmcHci.h"
>>> +
>>> +extern EFI_COMPONENT_NAME_PROTOCOL
>> gDwMmcHcComponentName;
>>> +extern EFI_COMPONENT_NAME2_PROTOCOL
>> gDwMmcHcComponentName2;
>>> +extern EFI_DRIVER_BINDING_PROTOCOL  gDwMmcHcDriverBinding;
>>> +
>>> +#define DW_MMC_HC_PRIVATE_SIGNATURE  SIGNATURE_32 ('d', 'w', 's',
>> 'd')
>>> +
>>> +#define DW_MMC_HC_PRIVATE_FROM_THIS(a) \
>>> +    CR(a, DW_MMC_HC_PRIVATE_DATA, PassThru,
>> DW_MMC_HC_PRIVATE_SIGNATURE)
>>> +
>>> +//
>>> +// Generic time out value, 1 microsecond as unit.
>>> +//
>>> +#define DW_MMC_HC_GENERIC_TIMEOUT     (1 * 1000 * 1000)
>>> +
>>> +//
>>> +// SD/MMC async transfer timer interval, set by experience.
>>> +// The unit is 100us, takes 1ms as interval.
>>> +//
>>> +#define DW_MMC_HC_ASYNC_TIMER
>> EFI_TIMER_PERIOD_MILLISECONDS(1)
>>> +//
>>> +// SD/MMC removable device enumeration timer interval, set by
>> experience.
>>> +// The unit is 100us, takes 100ms as interval.
>>> +//
>>> +#define DW_MMC_HC_ENUM_TIMER
>> EFI_TIMER_PERIOD_MILLISECONDS(100)
>>> +
>>> +typedef struct {
>>> +  BOOLEAN                             Enable;
>>> +  EFI_SD_MMC_SLOT_TYPE                SlotType;
>>> +  BOOLEAN                             MediaPresent;
>>> +  BOOLEAN                             Initialized;
>>> +  SD_MMC_CARD_TYPE                    CardType;
>>> +} DW_MMC_HC_SLOT;
>>> +
>>> +typedef struct {
>>> +  UINTN                               Signature;
>>> +
>>> +  EFI_HANDLE                          ControllerHandle;
>>> +
>>> +  // Mmio base address
>>> +  UINTN                               DevBase;
>>> +
>>> +  EFI_SD_MMC_PASS_THRU_PROTOCOL       PassThru;
>>> +
>>> +  PLATFORM_DW_MMC_PROTOCOL            *PlatformDwMmc;
>>> +  //
>>> +  // The field is used to record the previous slot in GetNextSlot().
>>> +  //
>>> +  UINT8                               PreviousSlot;
>>> +  //
>>> +  // For Non-blocking operation.
>>> +  //
>>> +  EFI_EVENT                           TimerEvent;
>>> +  //
>>> +  // For Sd removable device enumeration.
>>> +  //
>>> +  EFI_EVENT                           ConnectEvent;
>>> +  LIST_ENTRY                          Queue;
>>> +
>>> +  DW_MMC_HC_SLOT                      Slot[DW_MMC_HC_MAX_SLOT];
>>> +  DW_MMC_HC_SLOT_CAP
>> Capability[DW_MMC_HC_MAX_SLOT];
>>> +  UINT64                              MaxCurrent[DW_MMC_HC_MAX_SLOT];
>>> +
>>> +  UINT32                              ControllerVersion;
>>> +} DW_MMC_HC_PRIVATE_DATA;
>>> +
>>> +#define DW_MMC_HC_TRB_SIG             SIGNATURE_32 ('D', 'T', 'R', 'B')
>>> +
>>> +//
>>> +// TRB (Transfer Request Block) contains information for the cmd request.
>>> +//
>>> +typedef struct {
>>> +  UINT32                              Signature;
>>> +  LIST_ENTRY                          TrbList;
>>> +
>>> +  UINT8                               Slot;
>>> +  UINT16                              BlockSize;
>>> +
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET *Packet;
>>> +  VOID                                *Data;
>>> +  UINT32                              DataLen;
>>> +  BOOLEAN                             Read;
>>> +  EFI_PHYSICAL_ADDRESS                DataPhy;
>>> +  VOID                                *DataMap;
>>> +  DW_MMC_HC_TRANSFER_MODE             Mode;
>>> +
>>> +  EFI_EVENT                           Event;
>>> +  BOOLEAN                             Started;
>>> +  UINT64                              Timeout;
>>> +
>>> +  DW_MMC_HC_DMA_DESC_LINE             *DmaDesc;
>>> +  EFI_PHYSICAL_ADDRESS                DmaDescPhy;
>>> +  UINT32                              DmaDescPages;
>>> +  VOID                                *DmaMap;
>>> +
>>> +  BOOLEAN                             UseFifo;
>>> +  BOOLEAN                             UseBE;                  // Big-endian
>>> +
>>> +  DW_MMC_HC_PRIVATE_DATA              *Private;
>>> +} DW_MMC_HC_TRB;
>>> +
>>> +#define DW_MMC_HC_TRB_FROM_THIS(a) \
>>> +    CR(a, DW_MMC_HC_TRB, TrbList, DW_MMC_HC_TRB_SIG)
>>> +
>>> +//
>>> +// Task for Non-blocking mode.
>>> +//
>>> +typedef struct {
>>> +  UINT32                              Signature;
>>> +  LIST_ENTRY                          Link;
>>> +
>>> +  UINT8                               Slot;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET *Packet;
>>> +  BOOLEAN                             IsStart;
>>> +  EFI_EVENT                           Event;
>>> +  UINT64                              RetryTimes;
>>> +  BOOLEAN                             InfiniteWait;
>>> +  VOID                                *Map;
>>> +  VOID                                *MapAddress;
>>> +} DW_MMC_HC_QUEUE;
>>> +
>>> +//
>>> +// Prototypes
>>> +//
>>> +/**
>>> +  Execute card identification procedure.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +
>>> +  @retval EFI_SUCCESS       The card is identified correctly.
>>> +  @retval Others            The card can't be identified.
>>> +
>>> +**/
>>> +typedef
>>> +EFI_STATUS
>>> +(*DWMMC_CARD_TYPE_DETECT_ROUTINE) (
>>> +  IN DW_MMC_HC_PRIVATE_DATA             *Private
>>> +  );
>>> +
>>> +/**
>>> +  Sends SD command to an SD card that is attached to the SD controller.
>>> +
>>> +  The PassThru() function sends the SD command specified by Packet to
>> the SD
>>> +  card specified by Slot.
>>> +
>>> +  If Packet is successfully sent to the SD card, then EFI_SUCCESS is
>> returned.
>>> +
>>> +  If a device error occurs while sending the Packet, then
>> EFI_DEVICE_ERROR is
>>> +  returned.
>>> +
>>> +  If Slot is not in a valid range for the SD controller, then
>>> +  EFI_INVALID_PARAMETER is returned.
>>> +
>>> +  If Packet defines a data command but both InDataBuffer and
>> OutDataBuffer are
>>> +  NULL, EFI_INVALID_PARAMETER is returned.
>>> +
>>> +  @param[in]     This           A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                                instance.
>>> +  @param[in]     Slot           The slot number of the SD card to send the
>>> +                                command to.
>>> +  @param[in,out] Packet         A pointer to the SD command data structure.
>>> +  @param[in]     Event          If Event is NULL, blocking I/O is performed. If
>>> +                                Event is not NULL, then nonblocking I/O is
>>> +                                performed, and Event will be signaled when the
>>> +                                Packet completes.
>>> +
>>> +  @retval EFI_SUCCESS           The SD Command Packet was sent by the
>> host.
>>> +  @retval EFI_DEVICE_ERROR      A device error occurred while attempting
>> to send
>>> +                                the SD command Packet.
>>> +  @retval EFI_INVALID_PARAMETER Packet, Slot, or the contents of the
>> Packet is
>>> +                                invalid.
>>> +  @retval EFI_INVALID_PARAMETER Packet defines a data command but
>> both
>>> +                                InDataBuffer and OutDataBuffer are NULL.
>>> +  @retval EFI_NO_MEDIA          SD Device not present in the Slot.
>>> +  @retval EFI_UNSUPPORTED       The command described by the SD
>> Command Packet
>>> +                                is not supported by the host controller.
>>> +  @retval EFI_BAD_BUFFER_SIZE   The InTransferLength or
>> OutTransferLength
>>> +                                exceeds the limit supported by SD card ( i.e. if
>>> +                                the number of bytes exceed the Last LBA).
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcPassThruPassThru (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL         *This,
>>> +  IN     UINT8                                 Slot,
>>> +  IN OUT EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   *Packet,
>>> +  IN     EFI_EVENT                             Event    OPTIONAL
>>> +  );
>>> +
>>> +/**
>>> +  Used to retrieve next slot numbers supported by the SD controller. The
>>> +  function returns information about all available slots (populated or
>>> +  not-populated).
>>> +
>>> +  The GetNextSlot() function retrieves the next slot number on an SD
>> controller.
>>> +  If on input Slot is 0xFF, then the slot number of the first slot on the SD
>>> +  controller is returned.
>>> +
>>> +  If Slot is a slot number that was returned on a previous call to
>>> +  GetNextSlot(), then the slot number of the next slot on the SD controller
>> is
>>> +  returned.
>>> +
>>> +  If Slot is not 0xFF and Slot was not returned on a previous call to
>>> +  GetNextSlot(), EFI_INVALID_PARAMETER is returned.
>>> +
>>> +  If Slot is the slot number of the last slot on the SD controller, then
>>> +  EFI_NOT_FOUND is returned.
>>> +
>>> +  @param[in]     This           A pointer to the
>> EFI_SD_MMMC_PASS_THRU_PROTOCOL
>>> +                                instance.
>>> +  @param[in,out] Slot           On input, a pointer to a slot number on the SD
>>> +                                controller.
>>> +                                On output, a pointer to the next slot number on
>>> +                                the SD controller.
>>> +                                An input value of 0xFF retrieves the first slot
>>> +                                number on the SD controller.
>>> +
>>> +  @retval EFI_SUCCESS           The next slot number on the SD controller
>> was
>>> +                                returned in Slot.
>>> +  @retval EFI_NOT_FOUND         There are no more slots on this SD
>> controller.
>>> +  @retval EFI_INVALID_PARAMETER Slot is not 0xFF and Slot was not
>> returned on a
>>> +                                previous call to GetNextSlot().
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcPassThruGetNextSlot (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL        *This,
>>> +  IN OUT UINT8                                *Slot
>>> +  );
>>> +
>>> +/**
>>> +  Used to allocate and build a device path node for an SD card on the SD
>>> +  controller.
>>> +
>>> +  The BuildDevicePath() function allocates and builds a single device node
>>> +  for the SD
>>> +  card specified by Slot.
>>> +
>>> +  If the SD card specified by Slot is not present on the SD controller, then
>>> +  EFI_NOT_FOUND is returned.
>>> +
>>> +  If DevicePath is NULL, then EFI_INVALID_PARAMETER is returned.
>>> +
>>> +  If there are not enough resources to allocate the device path node, then
>>> +  EFI_OUT_OF_RESOURCES is returned.
>>> +
>>> +  Otherwise, DevicePath is allocated with the boot service AllocatePool(),
>> the
>>> +  contents of DevicePath are initialized to describe the SD card specified by
>>> +  Slot, and EFI_SUCCESS is returned.
>>> +
>>> +  @param[in]     This           A pointer to the
>> EFI_SD_MMMC_PASS_THRU_PROTOCOL
>>> +                                instance.
>>> +  @param[in]     Slot           Specifies the slot number of the SD card for
>>> +                                which a device path node is to be allocated and
>>> +                                built.
>>> +  @param[in,out] DevicePath     A pointer to a single device path node that
>>> +                                describes the SD card specified by Slot. This
>>> +                                function is responsible for allocating the
>>> +                                buffer DevicePath with the boot service
>>> +                                AllocatePool(). It is the caller's responsibi-
>>> +                                lity to free DevicePath when the caller is
>>> +                                finished with DevicePath.
>>> +
>>> +  @retval EFI_SUCCESS           The device path node that describes the SD
>> card
>>> +                                specified by Slot was allocated and returned in
>>> +                                DevicePath.
>>> +  @retval EFI_NOT_FOUND         The SD card specified by Slot does not
>> exist on
>>> +                                the SD controller.
>>> +  @retval EFI_INVALID_PARAMETER DevicePath is NULL.
>>> +  @retval EFI_OUT_OF_RESOURCES  There are not enough resources to
>> allocate
>>> +                                DevicePath.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcPassThruBuildDevicePath (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL       *This,
>>> +  IN     UINT8                               Slot,
>>> +  IN OUT EFI_DEVICE_PATH_PROTOCOL            **DevicePath
>>> +  );
>>> +
>>> +/**
>>> +  This function retrieves an SD card slot number based on the input device
>> path.
>>> +
>>> +  The GetSlotNumber() function retrieves slot number for the SD card
>> specified
>>> +  by the DevicePath node. If DevicePath is NULL,
>> EFI_INVALID_PARAMETER is
>>> +  returned.
>>> +
>>> +  If DevicePath is not a device path node type that the SD Pass Thru driver
>>> +  supports, EFI_UNSUPPORTED is returned.
>>> +
>>> +  @param[in]  This              A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                                instance.
>>> +  @param[in]  DevicePath        A pointer to the device path node that
>> describes
>>> +                                a SD card on the SD controller.
>>> +  @param[out] Slot              On return, points to the slot number of an SD
>>> +                                card on the SD controller.
>>> +
>>> +  @retval EFI_SUCCESS           SD card slot number is returned in Slot.
>>> +  @retval EFI_INVALID_PARAMETER Slot or DevicePath is NULL.
>>> +  @retval EFI_UNSUPPORTED       DevicePath is not a device path node
>> type that
>>> +                                the SD Pass Thru driver supports.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcPassThruGetSlotNumber (
>>> +  IN  EFI_SD_MMC_PASS_THRU_PROTOCOL          *This,
>>> +  IN  EFI_DEVICE_PATH_PROTOCOL               *DevicePath,
>>> +  OUT UINT8                                  *Slot
>>> +  );
>>> +
>>> +/**
>>> +  Resets an SD card that is connected to the SD controller.
>>> +
>>> +  The ResetDevice() function resets the SD card specified by Slot.
>>> +
>>> +  If this SD controller does not support a device reset operation,
>>> +  EFI_UNSUPPORTED is returned.
>>> +
>>> +  If Slot is not in a valid slot number for this SD controller,
>>> +  EFI_INVALID_PARAMETER is returned.
>>> +
>>> +  If the device reset operation is completed, EFI_SUCCESS is returned.
>>> +
>>> +  @param[in]  This              A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                                instance.
>>> +  @param[in]  Slot              Specifies the slot number of the SD card to be
>>> +                                reset.
>>> +
>>> +  @retval EFI_SUCCESS           The SD card specified by Slot was reset.
>>> +  @retval EFI_UNSUPPORTED       The SD controller does not support a
>> device
>>> +                                reset operation.
>>> +  @retval EFI_INVALID_PARAMETER Slot number is invalid.
>>> +  @retval EFI_NO_MEDIA          SD Device not present in the Slot.
>>> +  @retval EFI_DEVICE_ERROR      The reset command failed due to a device
>> error
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcPassThruResetDevice (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL           *This,
>>> +  IN UINT8                                   Slot
>>> +  );
>>> +
>>> +//
>>> +// Driver model protocol interfaces
>>> +//
>>> +/**
>>> +  Tests to see if this driver supports a given controller. If a child device is
>>> +  provided, it further tests to see if this driver supports creating a handle
>>> +  for the specified child device.
>>> +
>>> +  This function checks to see if the driver specified by This supports the
>>> +  device specified by ControllerHandle. Drivers will typically use the device
>>> +  path attached to ControllerHandle and/or the services from the bus I/O
>>> +  abstraction attached to ControllerHandle to determine if the driver
>> supports
>>> +  ControllerHandle. This function may be called many times during
>> platform
>>> +  initialization. In order to reduce boot times, the tests performed by this
>>> +  function must be very small, and take as little time as possible to
>> execute.
>>> +  This function must not change the state of any hardware devices, and
>> this
>>> +  function must be aware that the device specified by ControllerHandle
>> may
>>> +  already be managed by the same driver or a different driver. This
>> function
>>> +  must match its calls to AllocatePages() with FreePages(), AllocatePool()
>> with
>>> +  FreePool(), and OpenProtocol() with CloseProtocol().
>>> +  Since ControllerHandle may have been previously started by the same
>> driver, if
>>> +  a protocol is already in the opened state, then it must not be closed with
>>> +  CloseProtocol(). This is required to guarantee the state of
>> ControllerHandle
>>> +  is not modified by this function.
>>> +
>>> +  @param[in]  This                 A pointer to the
>> EFI_DRIVER_BINDING_PROTOCOL
>>> +                                   instance.
>>> +  @param[in]  ControllerHandle     The handle of the controller to test. This
>>> +                                   handle must support a protocol interface that
>>> +                                   supplies an I/O abstraction to the driver.
>>> +  @param[in]  RemainingDevicePath  A pointer to the remaining portion of
>> a
>>> +                                   device path.  This parameter is ignored by
>>> +                                   device drivers, and is optional for bus
>>> +                                   drivers. For bus drivers, if this parameter
>>> +                                   is not NULL, then the bus driver must deter-
>>> +                                   mine if the bus controller specified by
>>> +                                   ControllerHandle and the child controller
>>> +                                   specified by RemainingDevicePath are both
>>> +                                   supported by this bus driver.
>>> +
>>> +  @retval EFI_SUCCESS              The device specified by ControllerHandle
>> and
>>> +                                   RemainingDevicePath is supported by the
>>> +                                   driver specified by This.
>>> +  @retval EFI_ALREADY_STARTED      The device specified by
>> ControllerHandle and
>>> +                                   RemainingDevicePath is already being managed
>>> +                                   by the driver specified by This.
>>> +  @retval EFI_ACCESS_DENIED        The device specified by
>> ControllerHandle and
>>> +                                   RemainingDevicePath is already being managed
>>> +                                   by a different driver or an application that
>>> +                                   requires exclusive access.
>>> +                                   Currently not implemented.
>>> +  @retval EFI_UNSUPPORTED          The device specified by
>> ControllerHandle and
>>> +                                   RemainingDevicePath is not supported by the
>>> +                                   driver specified by This.
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcDriverBindingSupported (
>>> +  IN EFI_DRIVER_BINDING_PROTOCOL *This,
>>> +  IN EFI_HANDLE                  Controller,
>>> +  IN EFI_DEVICE_PATH_PROTOCOL    *RemainingDevicePath
>>> +  );
>>> +
>>> +/**
>>> +  Starts a device controller or a bus controller.
>>> +
>>> +  The Start() function is designed to be invoked from the EFI boot service
>>> +  ConnectController().
>>> +  As a result, much of the error checking on the parameters to Start() has
>> been
>>> +  moved into this common boot service. It is legal to call Start() from other
>>> +  locations,
>>> +  but the following calling restrictions must be followed or the system
>> behavior
>>> +  will not be deterministic.
>>> +  1. ControllerHandle must be a valid EFI_HANDLE.
>>> +  2. If RemainingDevicePath is not NULL, then it must be a pointer to a
>> natural-
>>> +     ly aligned EFI_DEVICE_PATH_PROTOCOL.
>>> +  3. Prior to calling Start(), the Supported() function for the driver specified
>>> +     by This must have been called with the same calling parameters, and
>>> +     Supported() must have returned EFI_SUCCESS.
>>> +
>>> +  @param[in]  This                 A pointer to the
>> EFI_DRIVER_BINDING_PROTOCOL
>>> +                                   instance.
>>> +  @param[in]  ControllerHandle     The handle of the controller to start.
>> This
>>> +                                   handle must support a protocol interface that
>>> +                                   supplies an I/O abstraction to the driver.
>>> +  @param[in]  RemainingDevicePath  A pointer to the remaining portion of
>> a
>>> +                                   device path.  This parameter is ignored by
>>> +                                   device drivers, and is optional for bus dri-
>>> +                                   vers. For a bus driver, if this parameter is
>>> +                                   NULL, then handles for all the children of
>>> +                                   Controller are created by this driver.
>>> +                                   If this parameter is not NULL and the first
>>> +                                   Device Path Node is not the End of Device
>>> +                                   Path Node, then only the handle for the
>>> +                                   child device specified by the first Device
>>> +                                   Path Node of RemainingDevicePath is created
>>> +                                   by this driver.
>>> +                                   If the first Device Path Node of
>>> +                                   RemainingDevicePath is the End of Device Path
>>> +                                   Node, no child handle is created by this
>>> +                                   driver.
>>> +
>>> +  @retval EFI_SUCCESS              The device was started.
>>> +  @retval EFI_DEVICE_ERROR         The device could not be started due to a
>>> +                                   device error. Currently not implemented.
>>> +  @retval EFI_OUT_OF_RESOURCES     The request could not be
>> completed due to a
>>> +                                   lack of resources.
>>> +  @retval Others                   The driver failded to start the device.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcDriverBindingStart (
>>> +  IN EFI_DRIVER_BINDING_PROTOCOL     *This,
>>> +  IN EFI_HANDLE                      Controller,
>>> +  IN EFI_DEVICE_PATH_PROTOCOL        *RemainingDevicePath
>>> +  );
>>> +
>>> +/**
>>> +  Stops a device controller or a bus controller.
>>> +
>>> +  The Stop() function is designed to be invoked from the EFI boot service
>>> +  DisconnectController().
>>> +  As a result, much of the error checking on the parameters to Stop() has
>> been
>>> +  moved into this common boot service. It is legal to call Stop() from other
>>> +  locations, but the following calling restrictions must be followed or the
>>> +  system behavior will not be deterministic.
>>> +  1. ControllerHandle must be a valid EFI_HANDLE that was used on a
>> previous
>>> +     call to this same driver's Start() function.
>>> +  2. The first NumberOfChildren handles of ChildHandleBuffer must all be a
>> valid
>>> +     EFI_HANDLE. In addition, all of these handles must have been created
>> in
>>> +     this driver's Start() function, and the Start() function must have called
>>> +     OpenProtocol() on ControllerHandle with an Attribute of
>>> +     EFI_OPEN_PROTOCOL_BY_CHILD_CONTROLLER.
>>> +
>>> +  @param[in]  This              A pointer to the
>> EFI_DRIVER_BINDING_PROTOCOL
>>> +                                instance.
>>> +  @param[in]  ControllerHandle  A handle to the device being stopped.
>> The handle
>>> +                                must support a bus specific I/O protocol for the
>>> +                                driver to use to stop the device.
>>> +  @param[in]  NumberOfChildren  The number of child device handles in
>>> +                                ChildHandleBuffer.
>>> +  @param[in]  ChildHandleBuffer An array of child handles to be freed.
>> May be
>>> +                                NULL if NumberOfChildren is 0.
>>> +
>>> +  @retval EFI_SUCCESS           The device was stopped.
>>> +  @retval EFI_DEVICE_ERROR      The device could not be stopped due to a
>> device
>>> +                                error.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcDriverBindingStop (
>>> +  IN  EFI_DRIVER_BINDING_PROTOCOL     *This,
>>> +  IN  EFI_HANDLE                      Controller,
>>> +  IN  UINTN                           NumberOfChildren,
>>> +  IN  EFI_HANDLE                      *ChildHandleBuffer
>>> +  );
>>> +
>>> +//
>>> +// EFI Component Name Functions
>>> +//
>>> +/**
>>> +  Retrieves a Unicode string that is the user readable name of the driver.
>>> +
>>> +  This function retrieves the user readable name of a driver in the form of
>> a
>>> +  Unicode string. If the driver specified by This has a user readable name in
>>> +  the language specified by Language, then a pointer to the driver name is
>>> +  returned in DriverName, and EFI_SUCCESS is returned. If the driver
>> specified
>>> +  by This does not support the language specified by Language,
>>> +  then EFI_UNSUPPORTED is returned.
>>> +
>>> +  @param  This[in]              A pointer to the
>> EFI_COMPONENT_NAME2_PROTOCOL or
>>> +                                EFI_COMPONENT_NAME_PROTOCOL instance.
>>> +
>>> +  @param  Language[in]          A pointer to a Null-terminated ASCII string
>>> +                                array indicating the language. This is the
>>> +                                language of the driver name that the caller is
>>> +                                requesting, and it must match one of the
>>> +                                languages specified in SupportedLanguages. The
>>> +                                number of languages supported by a driver is up
>>> +                                to the driver writer. Language is specified
>>> +                                in RFC 4646 or ISO 639-2 language code format.
>>> +
>>> +  @param  DriverName[out]       A pointer to the Unicode string to return.
>>> +                                This Unicode string is the name of the
>>> +                                driver specified by This in the language
>>> +                                specified by Language.
>>> +
>>> +  @retval EFI_SUCCESS           The Unicode string for the Driver specified by
>>> +                                This and the language specified by Language was
>>> +                                returned in DriverName.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER Language is NULL.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER DriverName is NULL.
>>> +
>>> +  @retval EFI_UNSUPPORTED       The driver specified by This does not
>> support
>>> +                                the language specified by Language.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcComponentNameGetDriverName (
>>> +  IN  EFI_COMPONENT_NAME_PROTOCOL     *This,
>>> +  IN  CHAR8                           *Language,
>>> +  OUT CHAR16                          **DriverName
>>> +  );
>>> +
>>> +/**
>>> +  Retrieves a Unicode string that is the user readable name of the
>> controller
>>> +  that is being managed by a driver.
>>> +
>>> +  This function retrieves the user readable name of the controller specified
>> by
>>> +  ControllerHandle and ChildHandle in the form of a Unicode string. If the
>>> +  driver specified by This has a user readable name in the language
>> specified by
>>> +  Language, then a pointer to the controller name is returned in
>> ControllerName,
>>> +  and EFI_SUCCESS is returned.  If the driver specified by This is not
>> currently
>>> +  managing the controller specified by ControllerHandle and ChildHandle,
>>> +  then EFI_UNSUPPORTED is returned.  If the driver specified by This does
>> not
>>> +  support the language specified by Language, then EFI_UNSUPPORTED is
>> returned.
>>> +
>>> +  @param  This[in]              A pointer to the
>> EFI_COMPONENT_NAME2_PROTOCOL or
>>> +                                EFI_COMPONENT_NAME_PROTOCOL instance.
>>> +
>>> +  @param  ControllerHandle[in]  The handle of a controller that the driver
>>> +                                specified by This is managing.  This handle
>>> +                                specifies the controller whose name is to be
>>> +                                returned.
>>> +
>>> +  @param  ChildHandle[in]       The handle of the child controller to retrieve
>>> +                                the name of.  This is an optional parameter that
>>> +                                may be NULL.  It will be NULL for device
>>> +                                drivers.  It will also be NULL for a bus drivers
>>> +                                that wish to retrieve the name of the bus
>>> +                                controller.  It will not be NULL for a bus
>>> +                                driver that wishes to retrieve the name of a
>>> +                                child controller.
>>> +
>>> +  @param  Language[in]          A pointer to a Null-terminated ASCII string
>>> +                                array indicating the language.  This is the
>>> +                                language of the driver name that the caller is
>>> +                                requesting, and it must match one of the
>>> +                                languages specified in SupportedLanguages. The
>>> +                                number of languages supported by a driver is up
>>> +                                to the driver writer. Language is specified in
>>> +                                RFC 4646 or ISO 639-2 language code format.
>>> +
>>> +  @param  ControllerName[out]   A pointer to the Unicode string to
>> return.
>>> +                                This Unicode string is the name of the
>>> +                                controller specified by ControllerHandle and
>>> +                                ChildHandle in the language specified by
>>> +                                Language from the point of view of the driver
>>> +                                specified by This.
>>> +
>>> +  @retval EFI_SUCCESS           The Unicode string for the user readable
>> name in
>>> +                                the language specified by Language for the
>>> +                                driver specified by This was returned in
>>> +                                DriverName.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER ControllerHandle is not a valid
>> EFI_HANDLE.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER ChildHandle is not NULL and it is not a
>> valid
>>> +                                EFI_HANDLE.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER Language is NULL.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER ControllerName is NULL.
>>> +
>>> +  @retval EFI_UNSUPPORTED       The driver specified by This is not
>> currently
>>> +                                managing the controller specified by
>>> +                                ControllerHandle and ChildHandle.
>>> +
>>> +  @retval EFI_UNSUPPORTED       The driver specified by This does not
>> support
>>> +                                the language specified by Language.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcComponentNameGetControllerName (
>>> +  IN  EFI_COMPONENT_NAME_PROTOCOL     *This,
>>> +  IN  EFI_HANDLE                      ControllerHandle,
>>> +  IN  EFI_HANDLE                      ChildHandle, OPTIONAL
>>> +  IN  CHAR8                           *Language,
>>> +  OUT CHAR16                          **ControllerName
>>> +  );
>>> +
>>> +/**
>>> +  Create a new TRB for the SD/MMC cmd request.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command
>>> +                            to.
>>> +  @param[in] Packet         A pointer to the SD command data structure.
>>> +  @param[in] Event          If Event is NULL, blocking I/O is performed.
>>> +                            If Event is not NULL, then nonblocking I/O is
>>> +                            performed, and Event will be signaled when the
>>> +                            Packet completes.
>>> +
>>> +  @return Created Trb or NULL.
>>> +
>>> +**/
>>> +DW_MMC_HC_TRB *
>>> +DwMmcCreateTrb (
>>> +  IN DW_MMC_HC_PRIVATE_DATA              *Private,
>>> +  IN UINT8                               Slot,
>>> +  IN EFI_SD_MMC_PASS_THRU_COMMAND_PACKET *Packet,
>>> +  IN EFI_EVENT                           Event
>>> +  );
>>> +
>>> +/**
>>> +  Free the resource used by the TRB.
>>> +
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +**/
>>> +VOID
>>> +DwMmcFreeTrb (
>>> +  IN DW_MMC_HC_TRB           *Trb
>>> +  );
>>> +
>>> +/**
>>> +  Check if the env is ready for execute specified TRB.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The env is ready for TRB execution.
>>> +  @retval EFI_NOT_READY     The env is not ready for TRB execution.
>>> +  @retval Others            Some erros happen.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcCheckTrbEnv (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  );
>>> +
>>> +/**
>>> +  Wait for the env to be ready for execute specified TRB.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The env is ready for TRB execution.
>>> +  @retval EFI_TIMEOUT       The env is not ready for TRB execution in time.
>>> +  @retval Others            Some erros happen.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcWaitTrbEnv (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  );
>>> +
>>> +/**
>>> +  Execute the specified TRB.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The TRB is sent to host controller successfully.
>>> +  @retval Others            Some erros happen when sending this request to
>> the
>>> +                            host controller.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcExecTrb (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  );
>>> +
>>> +/**
>>> +  Check the TRB execution result.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The TRB is executed successfully.
>>> +  @retval EFI_NOT_READY     The TRB is not completed for execution.
>>> +  @retval Others            Some erros happen when executing this request.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcCheckTrbResult (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  );
>>> +
>>> +/**
>>> +  Wait for the TRB execution result.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The TRB is executed successfully.
>>> +  @retval Others            Some erros happen when executing this request.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcWaitTrbResult (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  );
>>> +
>>> +/**
>>> +  Execute EMMC device identification procedure.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.4 for details.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +
>>> +  @retval EFI_SUCCESS       There is a EMMC card.
>>> +  @retval Others            There is not a EMMC card.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcIdentification (
>>> +  IN DW_MMC_HC_PRIVATE_DATA             *Private
>>> +  );
>>> +
>>> +/**
>>> +  Execute EMMC device identification procedure.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.4 for details.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +
>>> +  @retval EFI_SUCCESS       There is a EMMC card.
>>> +  @retval Others            There is not a EMMC card.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardIdentification (
>>> +  IN DW_MMC_HC_PRIVATE_DATA             *Private
>>> +  );
>>> +
>>> +#endif /* _DW_MMC_HC_DXE_H_ */
>>> diff --git a/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHci.h
>> b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHci.h
>>> new file mode 100644
>>> index 000000000000..12ef58a37368
>>> --- /dev/null
>>> +++ b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHci.h
>>> @@ -0,0 +1,985 @@
>>> +/** @file
>>> +
>>> +  Provides some data structure definitions used by the SD/MMC host
>> controller
>>> +  driver.
>>> +
>>> +  Copyright (c) 2015, Intel Corporation. All rights reserved.<BR>
>>> +  Copyright (c) 2018, Linaro Ltd. All rights reserved.<BR>
>>> +
>>> +  This program and the accompanying materials are licensed and made
>> available
>>> +  under the terms and conditions of the BSD License which accompanies
>> this
>>> +  distribution.  The full text of the license may be found at
>>> +  http://opensource.org/licenses/bsd-license.php
>>> +
>>> +  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS"
>> BASIS,
>>> +  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER
>> EXPRESS OR IMPLIED.
>>> +
>>> +**/
>>> +
>>> +#ifndef _DW_MMC_HCI_H_
>>> +#define _DW_MMC_HCI_H_
>>> +
>>> +#include <Library/CacheMaintenanceLib.h>
>>> +#include <Library/TimerLib.h>
>>> +
>>> +#include <Protocol/PlatformDwMmc.h>
>>> +
>>> +//
>>> +// SD Host Controller SlotInfo Register Offset
>>> +//
>>> +#define DW_MMC_HC_SLOT_OFFSET         0x40
>>> +
>>> +#define DW_MMC_HC_MAX_SLOT            1
>>> +
>>> +//
>>> +// SD Host Controller MMIO Register Offset
>>> +//
>>> +#define DW_MMC_CTRL                   0x000
>>> +#define DW_MMC_PWREN                  0x004
>>> +#define DW_MMC_CLKDIV                 0x008
>>> +#define DW_MMC_CLKSRC                 0x00c
>>> +#define DW_MMC_CLKENA                 0x010
>>> +#define DW_MMC_TMOUT                  0x014
>>> +#define DW_MMC_CTYPE                  0x018
>>> +#define DW_MMC_BLKSIZ                 0x01c
>>> +#define DW_MMC_BYTCNT                 0x020
>>> +#define DW_MMC_INTMASK                0x024
>>> +#define DW_MMC_CMDARG                 0x028
>>> +#define DW_MMC_CMD                    0x02c
>>> +#define DW_MMC_RESP0                  0x030
>>> +#define DW_MMC_RESP1                  0x034
>>> +#define DW_MMC_RESP2                  0x038
>>> +#define DW_MMC_RESP3                  0x03c
>>> +#define DW_MMC_RINTSTS                0x044
>>> +#define DW_MMC_STATUS                 0x048
>>> +#define DW_MMC_FIFOTH                 0x04c
>>> +#define DW_MMC_GPIO                   0x058
>>> +#define DW_MMC_DEBNCE                 0x064
>>> +#define DW_MMC_USRID                  0x068
>>> +#define DW_MMC_VERID                  0x06c
>>> +#define DW_MMC_HCON                   0x070
>>> +#define DW_MMC_UHSREG                 0x074
>>> +#define DW_MMC_BMOD                   0x080
>>> +#define DW_MMC_DBADDR                 0x088
>>> +#define DW_MMC_IDSTS                  0x08c
>>> +#define DW_MMC_IDINTEN                0x090
>>> +#define DW_MMC_DSCADDR                0x094
>>> +#define DW_MMC_BUFADDR                0x098
>>> +#define DW_MMC_CARDTHRCTL             0x100
>>> +#define DW_MMC_UHSREG_EXT             0x108
>>> +#define DW_MMC_ENABLE_SHIFT           0x110
>>> +#define DW_MMC_FIFO_START             0x200
>>> +
>>> +#define GET_IDSTS_DMAC_FSM(x)                   (((x) >> 13) & 0xf)
>>> +#define IDSTS_FSM_DMA_IDLE                      0
>>> +#define IDSTS_FSM_DMA_SUSPEND                   1
>>> +#define IDSTS_FSM_DESC_RD                       2
>>> +#define IDSTS_FSM_DESC_CHK                      3
>>> +#define IDSTS_FSM_DMA_RD_REQ_WAIT               4
>>> +#define IDSTS_FSM_DMA_WR_REQ_WAIT               5
>>> +#define IDSTS_FSM_DMA_RD                        6
>>> +#define IDSTS_FSM_DMA_WR                        7
>>> +#define IDSTS_FSM_DESC_CLOSE                    8
>>> +#define IDSTS_FSM_MASK                          0xf
>>> +
>>> +#define CMD_UPDATE_CLK                          0x80202000
>>> +#define CMD_START_BIT                           (1 << 31)
>>> +
>>> +#define MMC_8BIT_MODE                           (1 << 16)
>>> +#define MMC_4BIT_MODE                           (1 << 0)
>>> +#define MMC_1BIT_MODE                           0
>>> +
>>> +#define DW_MMC_BLOCK_SIZE                       512
>>> +
>>> +#define CMD_INDEX_MASK                          0x3F
>>> +#define BIT_CMD_RESPONSE_EXPECT                 (1 << 6)
>>> +#define BIT_CMD_LONG_RESPONSE                   (1 << 7)
>>> +#define BIT_CMD_CHECK_RESPONSE_CRC              (1 << 8)
>>> +#define BIT_CMD_DATA_EXPECTED                   (1 << 9)
>>> +#define BIT_CMD_READ                            (0 << 10)
>>> +#define BIT_CMD_WRITE                           (1 << 10)
>>> +#define BIT_CMD_BLOCK_TRANSFER                  (0 << 11)
>>> +#define BIT_CMD_STREAM_TRANSFER                 (1 << 11)
>>> +#define BIT_CMD_SEND_AUTO_STOP                  (1 << 12)
>>> +#define BIT_CMD_WAIT_PRVDATA_COMPLETE           (1 << 13)
>>> +#define BIT_CMD_STOP_ABORT_CMD                  (1 << 14)
>>> +#define BIT_CMD_SEND_INIT                       (1 << 15)
>>> +#define BIT_CMD_UPDATE_CLOCK_ONLY               (1 << 21)
>>> +#define BIT_CMD_READ_CEATA_DEVICE               (1 << 22)
>>> +#define BIT_CMD_CCS_EXPECTED                    (1 << 23)
>>> +#define BIT_CMD_ENABLE_BOOT                     (1 << 24)
>>> +#define BIT_CMD_EXPECT_BOOT_ACK                 (1 << 25)
>>> +#define BIT_CMD_DISABLE_BOOT                    (1 << 26)
>>> +#define BIT_CMD_MANDATORY_BOOT                  (0 << 27)
>>> +#define BIT_CMD_ALTERNATE_BOOT                  (1 << 27)
>>> +#define BIT_CMD_VOLT_SWITCH                     (1 << 28)
>>> +#define BIT_CMD_USE_HOLD_REG                    (1 << 29)
>>> +#define BIT_CMD_START                           (1 << 31)
>>> +
>>> +#define CMD_INDEX(x)                            ((x) & CMD_INDEX_MASK)
>>> +
>>> +#define DW_MMC_INT_EBE                          (1 << 15)       /* End-bit Err */
>>> +#define DW_MMC_INT_SBE                          (1 << 13)       /* Start-bit  Err */
>>> +#define DW_MMC_INT_HLE                          (1 << 12)       /* Hardware-lock
>> Err */
>>> +#define DW_MMC_INT_FRUN                         (1 << 11)       /* FIFO UN/OV
>> RUN */
>>> +#define DW_MMC_INT_DRT                          (1 << 9)        /* Data timeout */
>>> +#define DW_MMC_INT_RTO                          (1 << 8)        /* Response
>> timeout */
>>> +#define DW_MMC_INT_DCRC                         (1 << 7)        /* Data CRC err */
>>> +#define DW_MMC_INT_RCRC                         (1 << 6)        /* Response CRC
>> err */
>>> +#define DW_MMC_INT_RXDR                         (1 << 5)        /* Receive FIFO
>> data request */
>>> +#define DW_MMC_INT_TXDR                         (1 << 4)        /* Transmit FIFO
>> data request */
>>> +#define DW_MMC_INT_DTO                          (1 << 3)        /* Data trans over
>> */
>>> +#define DW_MMC_INT_CMD_DONE                     (1 << 2)        /* Command
>> done */
>>> +#define DW_MMC_INT_RE                           (1 << 1)        /* Response error */
>>> +
>>> +#define DW_MMC_IDMAC_DES0_DIC                   (1 << 1)
>>> +#define DW_MMC_IDMAC_DES0_LD                    (1 << 2)
>>> +#define DW_MMC_IDMAC_DES0_FS                    (1 << 3)
>>> +#define DW_MMC_IDMAC_DES0_CH                    (1 << 4)
>>> +#define DW_MMC_IDMAC_DES0_ER                    (1 << 5)
>>> +#define DW_MMC_IDMAC_DES0_CES                   (1 << 30)
>>> +#define DW_MMC_IDMAC_DES0_OWN                   (1 << 31)
>>> +#define DW_MMC_IDMAC_DES1_BS1(x)                ((x) & 0x1fff)
>>> +#define DW_MMC_IDMAC_DES2_BS2(x)                (((x) & 0x1fff) << 13)
>>> +#define DW_MMC_IDMAC_SWRESET                    (1 << 0)
>>> +#define DW_MMC_IDMAC_FB                         (1 << 1)
>>> +#define DW_MMC_IDMAC_ENABLE                     (1 << 7)
>>> +
>>> +#define DW_MMC_CTRL_RESET                       (1 << 0)
>>> +#define DW_MMC_CTRL_FIFO_RESET                  (1 << 1)
>>> +#define DW_MMC_CTRL_DMA_RESET                   (1 << 2)
>>> +#define DW_MMC_CTRL_INT_EN                      (1 << 4)
>>> +#define DW_MMC_CTRL_DMA_EN                      (1 << 5)
>>> +#define DW_MMC_CTRL_IDMAC_EN                    (1 << 25)
>>> +#define DW_MMC_CTRL_RESET_ALL                   (DW_MMC_CTRL_RESET |
>> DW_MMC_CTRL_FIFO_RESET | DW_MMC_CTRL_DMA_RESET)
>>> +
>>> +#define DW_MMC_STS_DATA_BUSY                    (1 << 9)
>>> +#define DW_MMC_STS_FIFO_COUNT(x)                (((x) & 0x1fff) << 17)   /*
>> Number of filled locations in FIFO */
>>> +#define GET_STS_FIFO_COUNT(x)                   (((x) >> 17) & 0x1fff)
>>> +#define DW_MMC_STS_FIFO_FULL(x)                 (((x) >> 3) & 1)
>>> +
>>> +#define DW_MMC_BMOD_SWR                         (1 << 0)         /* Software
>> Reset */
>>> +#define DW_MMC_BMOD_FB                          (1 << 1)         /* Fix Burst */
>>> +#define DW_MMC_BMOD_DE                          (1 << 7)         /* IDMAC Enable
>> */
>>> +
>>> +#define DW_MMC_IDSTS_TI                         (1 << 0)         /* Transmit
>> Interrupt */
>>> +#define DW_MMC_IDSTS_RI                         (1 << 1)         /* Receive Interrupt
>> */
>>> +
>>> +#define DW_MMC_FIFO_TWMARK(x)                   ((x) & 0xfff)
>>> +#define DW_MMC_FIFO_RWMARK(x)                   (((x) & 0x1ff) << 16)
>>> +#define DW_MMC_DMA_BURST_SIZE(x)                (((x) & 0x7) << 28)
>>> +
>>> +#define DW_MMC_CARD_RD_THR(x)                   (((x) & 0xfff) << 16)
>>> +#define DW_MMC_CARD_RD_THR_EN                   (1 << 0)
>>> +
>>> +#define UHS_DDR_MODE                            (1 << 16)
>>> +
>>> +#define GENCLK_DIV                              7
>>> +
>>> +#define DW_MMC_GPIO_CLK_DIV(x)                  (((x) & 0xf) << 8)
>>> +#define DW_MMC_GPIO_USE_SAMPLE_DLY(x)           (((x) & 1) << 13)
>>> +#define DW_MMC_GPIO_CLK_ENABLE                  BIT16
>>> +
>>> +#define UHSEXT_SAMPLE_PHASE(x)                  (((x) & 0x1f) << 16)
>>> +#define UHSEXT_SAMPLE_DRVPHASE(x)               (((x) & 0x1f) << 21)
>>> +#define UHSEXT_SAMPLE_DLY(x)                    (((x) & 0x1f) << 26)
>>> +
>>> +#define DWMMC_DMA_BUF_SIZE                      (512 * 8)
>>> +#define DWMMC_FIFO_THRESHOLD                    16
>>> +
>>> +#define DWMMC_INIT_CLOCK_FREQ                   400              /* KHz */
>>> +
>>> +//
>>> +// The transfer modes supported by SD Host Controller
>>> +// Simplified Spec 3.0 Table 1-2
>>> +//
>>> +typedef enum {
>>> +  SdMmcNoData,
>>> +  SdMmcPioMode,
>>> +  SdMmcSdmaMode,
>>> +  SdMmcAdmaMode
>>> +} DW_MMC_HC_TRANSFER_MODE;
>>> +
>>> +//
>>> +// The maximum data length of each descriptor line
>>> +//
>>> +#define ADMA_MAX_DATA_PER_LINE     0x10000
>>> +
>>> +typedef struct {
>>> +  UINT32   Des0;
>>> +  UINT32   Des1;
>>> +  UINT32   Des2;
>>> +  UINT32   Des3;
>>> +} DW_MMC_HC_DMA_DESC_LINE;
>>> +
>>> +#define SD_MMC_SDMA_BOUNDARY          512 * 1024
>>> +#define SD_MMC_SDMA_ROUND_UP(x, n)    (((x) + n) & ~(n - 1))
>>> +
>>> +typedef struct {
>>> +  UINT8    FirstBar:3;        // bit 0:2
>>> +  UINT8    Reserved:1;        // bit 3
>>> +  UINT8    SlotNum:3;         // bit 4:6
>>> +  UINT8    Reserved1:1;       // bit 7
>>> +} DW_MMC_HC_SLOT_INFO;
>>> +
>>> +/**
>>> +  Dump the content of SD/MMC host controller's Capability Register.
>>> +
>>> +  @param[in]  Slot            The slot number of the SD card to send the
>> command to.
>>> +  @param[in]  Capability      The buffer to store the capability data.
>>> +
>>> +**/
>>> +VOID
>>> +DumpCapabilityReg (
>>> +  IN UINT8                Slot,
>>> +  IN DW_MMC_HC_SLOT_CAP   *Capability
>>> +  );
>>> +
>>> +#if 0
>>> +/**
>>> +  Read SlotInfo register from SD/MMC host controller pci config space.
>>> +
>>> +  @param[in]  PciIo        The PCI IO protocol instance.
>>> +  @param[out] FirstBar     The buffer to store the first BAR value.
>>> +  @param[out] SlotNum      The buffer to store the supported slot number.
>>> +
>>> +  @retval EFI_SUCCESS      The operation succeeds.
>>> +  @retval Others           The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcGetSlotInfo (
>>> +  IN     EFI_PCI_IO_PROTOCOL   *PciIo,
>>> +     OUT UINT8                 *FirstBar,
>>> +     OUT UINT8                 *SlotNum
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Read/Write specified SD/MMC host controller mmio register.
>>> +
>>> +  @param[in]      PciIo        The PCI IO protocol instance.
>>> +  @param[in]      BarIndex     The BAR index of the standard PCI
>> Configuration
>>> +                               header to use as the base address for the memory
>>> +                               operation to perform.
>>> +  @param[in]      Offset       The offset within the selected BAR to start the
>>> +                               memory operation.
>>> +  @param[in]      Read         A boolean to indicate it's read or write
>> operation.
>>> +  @param[in]      Count        The width of the mmio register in bytes.
>>> +                               Must be 1, 2 , 4 or 8 bytes.
>>> +  @param[in, out] Data         For read operations, the destination buffer to
>> store
>>> +                               the results. For write operations, the source buffer
>>> +                               to write data from. The caller is responsible for
>>> +                               having ownership of the data buffer and ensuring its
>>> +                               size not less than Count bytes.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER The PciIo or Data is NULL or the Count
>> is not valid.
>>> +  @retval EFI_SUCCESS           The read/write operation succeeds.
>>> +  @retval Others                The read/write operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcRwMmio (
>>> +  IN     EFI_PCI_IO_PROTOCOL   *PciIo,
>>> +  IN     UINT8                 BarIndex,
>>> +  IN     UINT32                Offset,
>>> +  IN     BOOLEAN               Read,
>>> +  IN     UINT8                 Count,
>>> +  IN OUT VOID                  *Data
>>> +  );
>>> +#else
>>> +/**
>>> +  Read/Write specified SD/MMC host controller mmio register.
>>> +
>>> +  @param[in]      DevIo        The DEVICE IO protocol instance.
>>> +  @param[in]      Offset       The offset within the selected BAR to start the
>>> +                               memory operation.
>>> +  @param[in]      Read         A boolean to indicate it's read or write
>> operation.
>>> +  @param[in]      Count        The width of the mmio register in bytes.
>>> +                               Must be 1, 2 , 4 or 8 bytes.
>>> +  @param[in, out] Data         For read operations, the destination buffer to
>> store
>>> +                               the results. For write operations, the source buffer
>>> +                               to write data from. The caller is responsible for
>>> +                               having ownership of the data buffer and ensuring its
>>> +                               size not less than Count bytes.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER The PciIo or Data is NULL or the Count
>> is not valid.
>>> +  @retval EFI_SUCCESS           The read/write operation succeeds.
>>> +  @retval Others                The read/write operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcRwMmio (
>>> +  IN     UINTN                   DevBase,
>>> +  IN     UINT32                   Offset,
>>> +  IN     BOOLEAN                  Read,
>>> +  IN     UINT8                    Count,
>>> +  IN OUT VOID                     *Data
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Do OR operation with the value of the specified SD/MMC host controller
>> mmio register.
>>> +
>>> +  @param[in] PciIo             The PCI IO protocol instance.
>>> +  @param[in] BarIndex          The BAR index of the standard PCI
>> Configuration
>>> +                               header to use as the base address for the memory
>>> +                               operation to perform.
>>> +  @param[in] Offset            The offset within the selected BAR to start the
>>> +                               memory operation.
>>> +  @param[in] Count             The width of the mmio register in bytes.
>>> +                               Must be 1, 2 , 4 or 8 bytes.
>>> +  @param[in] OrData            The pointer to the data used to do OR
>> operation.
>>> +                               The caller is responsible for having ownership of
>>> +                               the data buffer and ensuring its size not less than
>>> +                               Count bytes.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER The PciIo or OrData is NULL or the
>> Count is not valid.
>>> +  @retval EFI_SUCCESS           The OR operation succeeds.
>>> +  @retval Others                The OR operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcOrMmio (
>>> +  IN  EFI_PCI_IO_PROTOCOL      *PciIo,
>>> +  IN  UINT8                    BarIndex,
>>> +  IN  UINT32                   Offset,
>>> +  IN  UINT8                    Count,
>>> +  IN  VOID                     *OrData
>>> +  );
>>> +#else
>>> +/**
>>> +  Do OR operation with the value of the specified SD/MMC host controller
>> mmio register.
>>> +
>>> +  @param[in] DevIo             The DEVICE IO protocol instance.
>>> +  @param[in] BarIndex          The BAR index of the standard PCI
>> Configuration
>>> +                               header to use as the base address for the memory
>>> +                               operation to perform.
>>> +  @param[in] Offset            The offset within the selected BAR to start the
>>> +                               memory operation.
>>> +  @param[in] Count             The width of the mmio register in bytes.
>>> +                               Must be 1, 2 , 4 or 8 bytes.
>>> +  @param[in] OrData            The pointer to the data used to do OR
>> operation.
>>> +                               The caller is responsible for having ownership of
>>> +                               the data buffer and ensuring its size not less than
>>> +                               Count bytes.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER The PciIo or OrData is NULL or the
>> Count is not valid.
>>> +  @retval EFI_SUCCESS           The OR operation succeeds.
>>> +  @retval Others                The OR operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcOrMmio (
>>> +  IN     UINTN                   DevBase,
>>> +  IN  UINT32                   Offset,
>>> +  IN  UINT8                    Count,
>>> +  IN  VOID                     *OrData
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Do AND operation with the value of the specified SD/MMC host
>> controller mmio register.
>>> +
>>> +  @param[in] PciIo             The PCI IO protocol instance.
>>> +  @param[in] BarIndex          The BAR index of the standard PCI
>> Configuration
>>> +                               header to use as the base address for the memory
>>> +                               operation to perform.
>>> +  @param[in] Offset            The offset within the selected BAR to start the
>>> +                               memory operation.
>>> +  @param[in] Count             The width of the mmio register in bytes.
>>> +                               Must be 1, 2 , 4 or 8 bytes.
>>> +  @param[in] AndData           The pointer to the data used to do AND
>> operation.
>>> +                               The caller is responsible for having ownership of
>>> +                               the data buffer and ensuring its size not less than
>>> +                               Count bytes.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER The PciIo or AndData is NULL or the
>> Count is not valid.
>>> +  @retval EFI_SUCCESS           The AND operation succeeds.
>>> +  @retval Others                The AND operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcAndMmio (
>>> +  IN  EFI_PCI_IO_PROTOCOL      *PciIo,
>>> +  IN  UINT8                    BarIndex,
>>> +  IN  UINT32                   Offset,
>>> +  IN  UINT8                    Count,
>>> +  IN  VOID                     *AndData
>>> +  );
>>> +#else
>>> +/**
>>> +  Do AND operation with the value of the specified SD/MMC host
>> controller mmio register.
>>> +
>>> +  @param[in] DevIo             The DEVICE IO protocol instance.
>>> +  @param[in] Offset            The offset within the selected BAR to start the
>>> +                               memory operation.
>>> +  @param[in] Count             The width of the mmio register in bytes.
>>> +                               Must be 1, 2 , 4 or 8 bytes.
>>> +  @param[in] AndData           The pointer to the data used to do AND
>> operation.
>>> +                               The caller is responsible for having ownership of
>>> +                               the data buffer and ensuring its size not less than
>>> +                               Count bytes.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER The PciIo or AndData is NULL or the
>> Count is not valid.
>>> +  @retval EFI_SUCCESS           The AND operation succeeds.
>>> +  @retval Others                The AND operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcAndMmio (
>>> +  IN  UINTN                    DevBase,
>>> +  IN  UINT32                   Offset,
>>> +  IN  UINT8                    Count,
>>> +  IN  VOID                     *AndData
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Wait for the value of the specified MMIO register set to the test value.
>>> +
>>> +  @param[in]  PciIo         The PCI IO protocol instance.
>>> +  @param[in]  BarIndex      The BAR index of the standard PCI
>> Configuration
>>> +                            header to use as the base address for the memory
>>> +                            operation to perform.
>>> +  @param[in]  Offset        The offset within the selected BAR to start the
>>> +                            memory operation.
>>> +  @param[in]  Count         The width of the mmio register in bytes.
>>> +                            Must be 1, 2, 4 or 8 bytes.
>>> +  @param[in]  MaskValue     The mask value of memory.
>>> +  @param[in]  TestValue     The test value of memory.
>>> +  @param[in]  Timeout       The time out value for wait memory set, uses 1
>>> +                            microsecond as a unit.
>>> +
>>> +  @retval EFI_TIMEOUT       The MMIO register hasn't expected value in
>> timeout
>>> +                            range.
>>> +  @retval EFI_SUCCESS       The MMIO register has expected value.
>>> +  @retval Others            The MMIO operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcWaitMmioSet (
>>> +  IN  EFI_PCI_IO_PROTOCOL       *PciIo,
>>> +  IN  UINT8                     BarIndex,
>>> +  IN  UINT32                    Offset,
>>> +  IN  UINT8                     Count,
>>> +  IN  UINT64                    MaskValue,
>>> +  IN  UINT64                    TestValue,
>>> +  IN  UINT64                    Timeout
>>> +  );
>>> +#else
>>> +/**
>>> +  Wait for the value of the specified MMIO register set to the test value.
>>> +
>>> +  @param[in]  DevIo         The DEVICE IO protocol instance.
>>> +  @param[in]  Offset        The offset within the selected BAR to start the
>>> +                            memory operation.
>>> +  @param[in]  Count         The width of the mmio register in bytes.
>>> +                            Must be 1, 2, 4 or 8 bytes.
>>> +  @param[in]  MaskValue     The mask value of memory.
>>> +  @param[in]  TestValue     The test value of memory.
>>> +  @param[in]  Timeout       The time out value for wait memory set, uses 1
>>> +                            microsecond as a unit.
>>> +
>>> +  @retval EFI_TIMEOUT       The MMIO register hasn't expected value in
>> timeout
>>> +                            range.
>>> +  @retval EFI_SUCCESS       The MMIO register has expected value.
>>> +  @retval Others            The MMIO operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcWaitMmioSet (
>>> +  IN  UINTN                    DevBase,
>>> +  IN  UINT32                    Offset,
>>> +  IN  UINT8                     Count,
>>> +  IN  UINT64                    MaskValue,
>>> +  IN  UINT64                    TestValue,
>>> +  IN  UINT64                    Timeout
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Software reset the specified SD/MMC host controller.
>>> +
>>> +  @param[in] PciIo          The PCI IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +
>>> +  @retval EFI_SUCCESS       The software reset executes successfully.
>>> +  @retval Others            The software reset fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcReset (
>>> +fark
>>> +  IN EFI_PCI_IO_PROTOCOL    *PciIo,
>>> +  IN UINT8                  Slot,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  );
>>> +#else
>>> +/**
>>> +  Software reset the specified SD/MMC host controller.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +
>>> +  @retval EFI_SUCCESS       The software reset executes successfully.
>>> +  @retval Others            The software reset fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcReset (
>>> +  IN UINTN                    DevBase,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Set all interrupt status bits in Normal and Error Interrupt Status Enable
>>> +  register.
>>> +
>>> +  @param[in] PciIo          The PCI IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +
>>> +  @retval EFI_SUCCESS       The operation executes successfully.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcEnableInterrupt (
>>> +  IN EFI_PCI_IO_PROTOCOL    *PciIo,
>>> +  IN UINT8                  Slot
>>> +  );
>>> +#else
>>> +/**
>>> +  Set all interrupt status bits in Normal and Error Interrupt Status Enable
>>> +  register.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +
>>> +  @retval EFI_SUCCESS       The operation executes successfully.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcEnableInterrupt (
>>> +  IN  UINTN                    DevBase
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Get the capability data from the specified slot.
>>> +
>>> +  @param[in]  PciIo           The PCI IO protocol instance.
>>> +  @param[in]  Slot            The slot number of the SD card to send the
>> command to.
>>> +  @param[out] Capability      The buffer to store the capability data.
>>> +
>>> +  @retval EFI_SUCCESS         The operation executes successfully.
>>> +  @retval Others              The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcGetCapability (
>>> +  IN     EFI_PCI_IO_PROTOCOL  *PciIo,
>>> +  IN     EFI_HANDLE           Controller,
>>> +  IN     UINT8                Slot,
>>> +     OUT DW_MMC_HC_SLOT_CAP   *Capability
>>> +  );
>>> +#else
>>> +/**
>>> +  Get the capability data from the specified slot.
>>> +
>>> +  @param[in]  DevIo           The DEVICE IO protocol instance.
>>> +  @param[in]  Slot            The slot number of the SD card to send the
>> command to.
>>> +  @param[out] Capability      The buffer to store the capability data.
>>> +
>>> +  @retval EFI_SUCCESS         The operation executes successfully.
>>> +  @retval Others              The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcGetCapability (
>>> +  IN  UINTN                    DevBase,
>>> +  IN     EFI_HANDLE              Controller,
>>> +  IN     UINT8                   Slot,
>>> +     OUT DW_MMC_HC_SLOT_CAP      *Capability
>>> +  );
>>> +#endif
>>> +
>>> +#if 0
>>> +/**
>>> +  Get the maximum current capability data from the specified slot.
>>> +
>>> +  @param[in]  PciIo           The PCI IO protocol instance.
>>> +  @param[in]  Slot            The slot number of the SD card to send the
>> command to.
>>> +  @param[out] MaxCurrent      The buffer to store the maximum current
>> capability data.
>>> +
>>> +  @retval EFI_SUCCESS         The operation executes successfully.
>>> +  @retval Others              The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcGetMaxCurrent (
>>> +  IN     EFI_PCI_IO_PROTOCOL  *PciIo,
>>> +  IN     UINT8                Slot,
>>> +     OUT UINT64               *MaxCurrent
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Detect whether there is a SD/MMC card attached at the specified
>> SD/MMC host controller
>>> +  slot.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.1 for details.
>>> +
>>> +  @param[in]  PciIo         The PCI IO protocol instance.
>>> +  @param[in]  Slot          The slot number of the SD card to send the
>> command to.
>>> +  @param[out] MediaPresent  The pointer to the media present boolean
>> value.
>>> +
>>> +  @retval EFI_SUCCESS       There is no media change happened.
>>> +  @retval EFI_MEDIA_CHANGED There is media change happened.
>>> +  @retval Others            The detection fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcCardDetect (
>>> +  IN     EFI_PCI_IO_PROTOCOL  *PciIo,
>>> +  IN     EFI_HANDLE           Controller,
>>> +  IN     UINT8                Slot,
>>> +     OUT BOOLEAN              *MediaPresent
>>> +  );
>>> +#else
>>> +/**
>>> +  Detect whether there is a SD/MMC card attached at the specified
>> SD/MMC host controller
>>> +  slot.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.1 for details.
>>> +
>>> +  @param[in]  DevIo         The DEVICE IO protocol instance.
>>> +  @param[in]  Slot          The slot number of the SD card to send the
>> command to.
>>> +  @param[out] MediaPresent  The pointer to the media present boolean
>> value.
>>> +
>>> +  @retval EFI_SUCCESS       There is no media change happened.
>>> +  @retval EFI_MEDIA_CHANGED There is media change happened.
>>> +  @retval Others            The detection fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcCardDetect (
>>> +  IN     UINTN                   DevBase,
>>> +  IN     EFI_HANDLE              Controller,
>>> +  IN     UINT8                   Slot,
>>> +     OUT BOOLEAN                 *MediaPresent
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Stop SD/MMC card clock.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.2.2 for details.
>>> +
>>> +  @param[in] PciIo          The PCI IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +
>>> +  @retval EFI_SUCCESS       Succeed to stop SD/MMC clock.
>>> +  @retval Others            Fail to stop SD/MMC clock.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcStopClock (
>>> +  IN EFI_PCI_IO_PROTOCOL    *PciIo,
>>> +  IN UINT8                  Slot
>>> +  );
>>> +
>>> +/**
>>> +  SD/MMC card clock supply.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.2.1 for details.
>>> +
>>> +  @param[in] PciIo          The PCI IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +  @param[in] ClockFreq      The max clock frequency to be set. The unit is
>> KHz.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The clock is supplied successfully.
>>> +  @retval Others            The clock isn't supplied successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcClockSupply (
>>> +  IN EFI_PCI_IO_PROTOCOL    *PciIo,
>>> +  IN UINT8                  Slot,
>>> +  IN UINT64                 ClockFreq,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  );
>>> +#else
>>> +/**
>>> +  Stop SD/MMC card clock.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.2.2 for details.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +
>>> +  @retval EFI_SUCCESS       Succeed to stop SD/MMC clock.
>>> +  @retval Others            Fail to stop SD/MMC clock.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcStopClock (
>>> +  IN  UINTN                    DevBase
>>> +  );
>>> +
>>> +/**
>>> +  SD/MMC card clock supply.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.2.1 for details.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] ClockFreq      The max clock frequency to be set. The unit is
>> KHz.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The clock is supplied successfully.
>>> +  @retval Others            The clock isn't supplied successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcClockSupply (
>>> +  IN  UINTN                    DevBase,
>>> +  IN UINT64                 ClockFreq,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  );
>>> +#endif
>>> +
>>> +#if 0
>>> +/**
>>> +  SD/MMC bus power control.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.3 for details.
>>> +
>>> +  @param[in] PciIo          The PCI IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +  @param[in] PowerCtrl      The value setting to the power control register.
>>> +
>>> +  @retval TRUE              There is a SD/MMC card attached.
>>> +  @retval FALSE             There is no a SD/MMC card attached.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcPowerControl (
>>> +  IN EFI_PCI_IO_PROTOCOL    *PciIo,
>>> +  IN UINT8                  Slot,
>>> +  IN UINT8                  PowerCtrl
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Set the SD/MMC bus width.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.4 for details.
>>> +
>>> +  @param[in] PciIo          The PCI IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +  @param[in] BusWidth       The bus width used by the SD/MMC device, it
>> must be 1, 4 or 8.
>>> +
>>> +  @retval EFI_SUCCESS       The bus width is set successfully.
>>> +  @retval Others            The bus width isn't set successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcSetBusWidth (
>>> +  IN EFI_PCI_IO_PROTOCOL    *PciIo,
>>> +  IN UINT8                  Slot,
>>> +  IN BOOLEAN                IsDdr,
>>> +  IN UINT16                 BusWidth
>>> +  );
>>> +#else
>>> +/**
>>> +  Set the SD/MMC bus width.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.4 for details.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] BusWidth       The bus width used by the SD/MMC device, it
>> must be 1, 4 or 8.
>>> +
>>> +  @retval EFI_SUCCESS       The bus width is set successfully.
>>> +  @retval Others            The bus width isn't set successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcSetBusWidth (
>>> +  IN  UINTN                    DevBase,
>>> +  IN BOOLEAN                IsDdr,
>>> +  IN UINT16                 BusWidth
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Supply SD/MMC card with lowest clock frequency at initialization.
>>> +
>>> +  @param[in] PciIo          The PCI IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The clock is supplied successfully.
>>> +  @retval Others            The clock isn't supplied successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitClockFreq (
>>> +  IN EFI_PCI_IO_PROTOCOL    *PciIo,
>>> +  IN UINT8                  Slot,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  );
>>> +#else
>>> +/**
>>> +  Supply SD/MMC card with lowest clock frequency at initialization.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The clock is supplied successfully.
>>> +  @retval Others            The clock isn't supplied successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitClockFreq (
>>> +  IN UINTN                  DevBase,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Supply SD/MMC card with maximum voltage at initialization.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.3 for details.
>>> +
>>> +  @param[in] PciIo          The PCI IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The voltage is supplied successfully.
>>> +  @retval Others            The voltage isn't supplied successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitPowerVoltage (
>>> +  IN EFI_PCI_IO_PROTOCOL    *PciIo,
>>> +  IN UINT8                  Slot,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  );
>>> +#else
>>> +/**
>>> +  Supply SD/MMC card with maximum voltage at initialization.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.3 for details.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The voltage is supplied successfully.
>>> +  @retval Others            The voltage isn't supplied successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitPowerVoltage (
>>> +  IN UINTN                  DevBase,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Initialize the Timeout Control register with most conservative value at
>> initialization.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 2.2.15 for details.
>>> +
>>> +  @param[in] PciIo          The PCI IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +
>>> +  @retval EFI_SUCCESS       The timeout control register is configured
>> successfully.
>>> +  @retval Others            The timeout control register isn't configured
>> successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitTimeoutCtrl (
>>> +  IN EFI_PCI_IO_PROTOCOL    *PciIo,
>>> +  IN UINT8                  Slot
>>> +  );
>>> +#else
>>> +/**
>>> +  Initialize the Timeout Control register with most conservative value at
>> initialization.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 2.2.15 for details.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +
>>> +  @retval EFI_SUCCESS       The timeout control register is configured
>> successfully.
>>> +  @retval Others            The timeout control register isn't configured
>> successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitTimeoutCtrl (
>>> +  IN  UINTN                    DevBase
>>> +  );
>>> +#endif
>>> +
>>> +#ifdef DWMMC_PCI
>>> +/**
>>> +  Initial SD/MMC host controller with lowest clock frequency, max power
>> and max timeout value
>>> +  at initialization.
>>> +
>>> +  @param[in] PciIo          The PCI IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command to.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The host controller is initialized successfully.
>>> +  @retval Others            The host controller isn't initialized successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitHost (
>>> +  IN EFI_PCI_IO_PROTOCOL    *PciIo,
>>> +  IN UINT8                  Slot,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  );
>>> +#else
>>> +/**
>>> +  Initial SD/MMC host controller with lowest clock frequency, max power
>> and
>>> +  max timeout value at initialization.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The host controller is initialized successfully.
>>> +  @retval Others            The host controller isn't initialized successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitHost (
>>> +  IN  UINTN                    DevBase,
>>> +  IN DW_MMC_HC_SLOT_CAP        Capability
>>> +  );
>>> +#endif
>>> +
>>> +#endif /* _DW_MMC_HCI_H_ */
>>> diff --git a/EmbeddedPkg/Include/Protocol/PlatformDwMmc.h
>> b/EmbeddedPkg/Include/Protocol/PlatformDwMmc.h
>>> new file mode 100644
>>> index 000000000000..acbc3e153dac
>>> --- /dev/null
>>> +++ b/EmbeddedPkg/Include/Protocol/PlatformDwMmc.h
>>> @@ -0,0 +1,79 @@
>>> +/** @file
>>> +
>>> +  Copyright (c) 2018, Linaro. All rights reserved.
>>> +
>>> +  This program and the accompanying materials are licensed and made
>> available
>>> +  under the terms and conditions of the BSD License which accompanies
>> this
>>> +  distribution.  The full text of the license may be found at
>>> +  http://opensource.org/licenses/bsd-license.php
>>> +
>>> +  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS"
>> BASIS,
>>> +  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER
>> EXPRESS OR IMPLIED.
>>> +
>>> +**/
>>> +
>>> +#ifndef __PLATFORM_DW_MMC_H__
>>> +#define __PLATFORM_DW_MMC_H__
>>> +
>>> +typedef enum {
>>> +  RemovableSlot,
>>> +  EmbeddedSlot,
>>> +  SharedBusSlot,
>>> +  UnknownSlot
>>> +} EFI_SD_MMC_SLOT_TYPE;
>>> +
>>> +typedef enum {
>>> +  UnknownCardType,
>>> +  SdCardType,
>>> +  SdioCardType,
>>> +  MmcCardType,
>>> +  EmmcCardType
>>> +} SD_MMC_CARD_TYPE;
>>> +
>>> +typedef struct {
>>> +  UINT32        DefaultSpeed:1;    // bit 0
>>> +  UINT32        HighSpeed:1;       // bit 1
>>> +  UINT32        Sdr12:1;           // bit 2
>>> +  UINT32        Sdr25:1;           // bit 3
>>> +  UINT32        Sdr50:1;           // bit 4
>>> +  UINT32        Sdr104:1;          // bit 5
>>> +  UINT32        Ddr50:1;           // bit 6
>>> +  UINT32        SysBus64:1;        // bit 7
>>> +  UINT32        BusWidth:4;        // bit 11:8
>>> +  UINT32        SlotType:2;        // bit 13:12
>>> +  UINT32        CardType:3;        // bit 16:14
>>> +  UINT32        Voltage18:1;       // bit 17
>>> +  UINT32        Voltage30:1;       // bit 18
>>> +  UINT32        Voltage33:1;       // bit 19
>>> +  UINT32        BaseClkFreq;
>>> +  EFI_HANDLE    Controller;
>>> +} DW_MMC_HC_SLOT_CAP;
>>> +
>>> +//
>>> +// Protocol interface structure
>>> +//
>>> +typedef struct _PLATFORM_DW_MMC_PROTOCOL
>> PLATFORM_DW_MMC_PROTOCOL;
>>> +
>>> +typedef
>>> +EFI_STATUS
>>> +(EFIAPI *PLATFORM_DW_MMC_GET_CAPABILITY) (
>>> +  IN     EFI_HANDLE             Controller,
>>> +  IN     UINT8                  Slot,
>>> +     OUT DW_MMC_HC_SLOT_CAP     *Capability
>>> +  );
>>> +
>>> +typedef
>>> +BOOLEAN
>>> +(EFIAPI *PLATFORM_DW_MMC_CARD_DETECT) (
>>> +  IN EFI_HANDLE                 Controller,
>>> +  IN UINT8                      Slot
>>> +  );
>>> +
>>> +struct _PLATFORM_DW_MMC_PROTOCOL {
>>> +  PLATFORM_DW_MMC_GET_CAPABILITY               GetCapability;
>>> +  PLATFORM_DW_MMC_CARD_DETECT                  CardDetect;
>>> +};
>>> +
>>> +extern EFI_GUID gPlatformDwMmcProtocolGuid;
>>> +
>>> +#endif /* __PLATFORM_DW_MMC_H__ */
>>> diff --git a/EmbeddedPkg/Drivers/DwMmcHcDxe/ComponentName.c
>> b/EmbeddedPkg/Drivers/DwMmcHcDxe/ComponentName.c
>>> new file mode 100644
>>> index 000000000000..1edade69d091
>>> --- /dev/null
>>> +++ b/EmbeddedPkg/Drivers/DwMmcHcDxe/ComponentName.c
>>> @@ -0,0 +1,214 @@
>>> +/** @file
>>> +  UEFI Component Name(2) protocol implementation for Designware
>> SD/MMC host
>>> +  controller driver.
>>> +
>>> +  Copyright (c) 2015, Intel Corporation. All rights reserved.<BR>
>>> +  Copyright (c) 2018, Linaro Ltd. All rights reserved.<BR>
>>> +
>>> +  This program and the accompanying materials are licensed and made
>> available
>>> +  under the terms and conditions of the BSD License which accompanies
>> this
>>> +  distribution.  The full text of the license may be found at
>>> +  http://opensource.org/licenses/bsd-license.php
>>> +
>>> +  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS"
>> BASIS,
>>> +  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER
>> EXPRESS OR IMPLIED.
>>> +
>>> +**/
>>> +
>>> +#include "DwMmcHcDxe.h"
>>> +
>>> +//
>>> +// EFI Component Name Protocol
>>> +//
>>> +GLOBAL_REMOVE_IF_UNREFERENCED
>> EFI_COMPONENT_NAME_PROTOCOL gDwMmcHcComponentName = {
>>> +  DwMmcHcComponentNameGetDriverName,
>>> +  DwMmcHcComponentNameGetControllerName,
>>> +  "eng"
>>> +};
>>> +
>>> +//
>>> +// EFI Component Name 2 Protocol
>>> +//
>>> +GLOBAL_REMOVE_IF_UNREFERENCED
>> EFI_COMPONENT_NAME2_PROTOCOL gDwMmcHcComponentName2 = {
>>> +  (EFI_COMPONENT_NAME2_GET_DRIVER_NAME)
>> DwMmcHcComponentNameGetDriverName,
>>> +  (EFI_COMPONENT_NAME2_GET_CONTROLLER_NAME)
>> DwMmcHcComponentNameGetControllerName,
>>> +  "en"
>>> +};
>>> +
>>> +GLOBAL_REMOVE_IF_UNREFERENCED EFI_UNICODE_STRING_TABLE
>> mDwMmcHcDriverNameTable[] = {
>>> +  { "eng;en", L"Designware Sd/Mmc Host Controller Driver" },
>>> +  { NULL , NULL }
>>> +};
>>> +
>>> +GLOBAL_REMOVE_IF_UNREFERENCED EFI_UNICODE_STRING_TABLE
>> mDwMmcHcControllerNameTable[] = {
>>> +  { "eng;en", L"Designware Sd/Mmc Host Controller" },
>>> +  { NULL , NULL }
>>> +};
>>> +
>>> +/**
>>> +  Retrieves a Unicode string that is the user readable name of the driver.
>>> +
>>> +  This function retrieves the user readable name of a driver in the form of
>> a
>>> +  Unicode string. If the driver specified by This has a user readable name in
>>> +  the language specified by Language, then a pointer to the driver name is
>>> +  returned in DriverName, and EFI_SUCCESS is returned. If the driver
>> specified
>>> +  by This does not support the language specified by Language,
>>> +  then EFI_UNSUPPORTED is returned.
>>> +
>>> +  @param  This[in]              A pointer to the
>> EFI_COMPONENT_NAME2_PROTOCOL or
>>> +                                EFI_COMPONENT_NAME_PROTOCOL instance.
>>> +
>>> +  @param  Language[in]          A pointer to a Null-terminated ASCII string
>>> +                                array indicating the language. This is the
>>> +                                language of the driver name that the caller is
>>> +                                requesting, and it must match one of the
>>> +                                languages specified in SupportedLanguages. The
>>> +                                number of languages supported by a driver is up
>>> +                                to the driver writer. Language is specified
>>> +                                in RFC 4646 or ISO 639-2 language code format.
>>> +
>>> +  @param  DriverName[out]       A pointer to the Unicode string to return.
>>> +                                This Unicode string is the name of the
>>> +                                driver specified by This in the language
>>> +                                specified by Language.
>>> +
>>> +  @retval EFI_SUCCESS           The Unicode string for the Driver specified by
>>> +                                This and the language specified by Language was
>>> +                                returned in DriverName.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER Language is NULL.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER DriverName is NULL.
>>> +
>>> +  @retval EFI_UNSUPPORTED       The driver specified by This does not
>> support
>>> +                                the language specified by Language.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcComponentNameGetDriverName (
>>> +  IN  EFI_COMPONENT_NAME_PROTOCOL     *This,
>>> +  IN  CHAR8                           *Language,
>>> +  OUT CHAR16                          **DriverName
>>> +  )
>>> +{
>>> +  return LookupUnicodeString2 (
>>> +           Language,
>>> +           This->SupportedLanguages,
>>> +           mDwMmcHcDriverNameTable,
>>> +           DriverName,
>>> +           (BOOLEAN)(This == &gDwMmcHcComponentName)
>>> +           );
>>> +}
>>> +
>>> +/**
>>> +  Retrieves a Unicode string that is the user readable name of the
>> controller
>>> +  that is being managed by a driver.
>>> +
>>> +  This function retrieves the user readable name of the controller specified
>> by
>>> +  ControllerHandle and ChildHandle in the form of a Unicode string. If the
>>> +  driver specified by This has a user readable name in the language
>> specified by
>>> +  Language, then a pointer to the controller name is returned in
>> ControllerName,
>>> +  and EFI_SUCCESS is returned.  If the driver specified by This is not
>> currently
>>> +  managing the controller specified by ControllerHandle and ChildHandle,
>>> +  then EFI_UNSUPPORTED is returned.  If the driver specified by This does
>> not
>>> +  support the language specified by Language, then EFI_UNSUPPORTED is
>> returned.
>>> +
>>> +  @param  This[in]              A pointer to the
>> EFI_COMPONENT_NAME2_PROTOCOL or
>>> +                                EFI_COMPONENT_NAME_PROTOCOL instance.
>>> +
>>> +  @param  ControllerHandle[in]  The handle of a controller that the driver
>>> +                                specified by This is managing.  This handle
>>> +                                specifies the controller whose name is to be
>>> +                                returned.
>>> +
>>> +  @param  ChildHandle[in]       The handle of the child controller to retrieve
>>> +                                the name of.  This is an optional parameter that
>>> +                                may be NULL.  It will be NULL for device
>>> +                                drivers.  It will also be NULL for a bus drivers
>>> +                                that wish to retrieve the name of the bus
>>> +                                controller.  It will not be NULL for a bus
>>> +                                driver that wishes to retrieve the name of a
>>> +                                child controller.
>>> +
>>> +  @param  Language[in]          A pointer to a Null-terminated ASCII string
>>> +                                array indicating the language.  This is the
>>> +                                language of the driver name that the caller is
>>> +                                requesting, and it must match one of the
>>> +                                languages specified in SupportedLanguages. The
>>> +                                number of languages supported by a driver is up
>>> +                                to the driver writer. Language is specified in
>>> +                                RFC 4646 or ISO 639-2 language code format.
>>> +
>>> +  @param  ControllerName[out]   A pointer to the Unicode string to
>> return.
>>> +                                This Unicode string is the name of the
>>> +                                controller specified by ControllerHandle and
>>> +                                ChildHandle in the language specified by
>>> +                                Language from the point of view of the driver
>>> +                                specified by This.
>>> +
>>> +  @retval EFI_SUCCESS           The Unicode string for the user readable
>> name in
>>> +                                the language specified by Language for the
>>> +                                driver specified by This was returned in
>>> +                                DriverName.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER ControllerHandle is not a valid
>> EFI_HANDLE.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER ChildHandle is not NULL and it is not a
>> valid
>>> +                                EFI_HANDLE.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER Language is NULL.
>>> +
>>> +  @retval EFI_INVALID_PARAMETER ControllerName is NULL.
>>> +
>>> +  @retval EFI_UNSUPPORTED       The driver specified by This is not
>> currently
>>> +                                managing the controller specified by
>>> +                                ControllerHandle and ChildHandle.
>>> +
>>> +  @retval EFI_UNSUPPORTED       The driver specified by This does not
>> support
>>> +                                the language specified by Language.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcComponentNameGetControllerName (
>>> +  IN  EFI_COMPONENT_NAME_PROTOCOL     *This,
>>> +  IN  EFI_HANDLE                      ControllerHandle,
>>> +  IN  EFI_HANDLE                      ChildHandle, OPTIONAL
>>> +  IN  CHAR8                           *Language,
>>> +  OUT CHAR16                          **ControllerName
>>> +  )
>>> +{
>>> +  EFI_STATUS         Status;
>>> +
>>> +  if (Language == NULL || ControllerName == NULL) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  //
>>> +  // This is a device driver, so ChildHandle must be NULL.
>>> +  //
>>> +  if (ChildHandle != NULL) {
>>> +    return EFI_UNSUPPORTED;
>>> +  }
>>> +
>>> +  //
>>> +  // Make sure this driver is currently managing ControllerHandle
>>> +  //
>>> +  Status = EfiTestManagedDevice (
>>> +             ControllerHandle,
>>> +             gDwMmcHcDriverBinding.DriverBindingHandle,
>>> +             &gEfiPciIoProtocolGuid
>>> +             );
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  return LookupUnicodeString2 (
>>> +           Language,
>>> +           This->SupportedLanguages,
>>> +           mDwMmcHcControllerNameTable,
>>> +           ControllerName,
>>> +           (BOOLEAN)(This == &gDwMmcHcComponentName)
>>> +           );
>>> +}
>>> diff --git a/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.c
>> b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.c
>>> new file mode 100644
>>> index 000000000000..aea12170d2cc
>>> --- /dev/null
>>> +++ b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHcDxe.c
>>> @@ -0,0 +1,1296 @@
>>> +/** @file
>>> +  This driver is used to manage Designware SD/MMC host controller.
>>> +
>>> +  It would expose EFI_SD_MMC_PASS_THRU_PROTOCOL for upper layer
>> use.
>>> +
>>> +  Copyright (c) 2015 - 2021, Intel Corporation. All rights reserved.<BR>
>>> +  Copyright (C) 2016 Marvell International Ltd. All rigths reserved.<BR>
>>> +  Copyright (C) 2018, Linaro Ltd. All rigths reserved.<BR>
>>> +
>>> +  This program and the accompanying materials
>>> +  are licensed and made available under the terms and conditions of the
>> BSD License
>>> +  which accompanies this distribution.  The full text of the license may be
>> found at
>>> +  http://opensource.org/licenses/bsd-license.php
>>> +
>>> +  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS"
>> BASIS,
>>> +  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER
>> EXPRESS OR IMPLIED.
>>> +
>>> +**/
>>> +
>>> +#include <Library/BaseMemoryLib.h>
>>> +#include <Library/DebugLib.h>
>>> +#include <Library/DevicePathLib.h>
>>> +#include <Library/IoLib.h>
>>> +#include <Library/MemoryAllocationLib.h>
>>> +#include <Protocol/NonDiscoverableDevice.h>
>>> +#include <Library/UefiBootServicesTableLib.h>
>>> +#include <Library/UefiDriverEntryPoint.h>
>>> +
>>> +#include <Protocol/DevicePath.h>
>>> +#include <Protocol/PlatformDwMmc.h>
>>> +
>>> +#include "DwMmcHcDxe.h"
>>> +
>>> +//
>>> +// Driver Global Variables
>>> +//
>>> +EFI_DRIVER_BINDING_PROTOCOL gDwMmcHcDriverBinding = {
>>> +  DwMmcHcDriverBindingSupported,
>>> +  DwMmcHcDriverBindingStart,
>>> +  DwMmcHcDriverBindingStop,
>>> +  0x10,
>>> +  NULL,
>>> +  NULL
>>> +};
>>> +
>>> +//
>>> +// Template for Designware SD/MMC host controller private data.
>>> +//
>>> +DW_MMC_HC_PRIVATE_DATA gDwMmcHcTemplate = {
>>> +  DW_MMC_HC_PRIVATE_SIGNATURE,      // Signature
>>> +  NULL,                             // ControllerHandle
>>> +  0x0,                             // Mmio base address
>>> +  {                                 // PassThru
>>> +    sizeof (UINT32),
>>> +    DwMmcPassThruPassThru,
>>> +    DwMmcPassThruGetNextSlot,
>>> +    DwMmcPassThruBuildDevicePath,
>>> +    DwMmcPassThruGetSlotNumber,
>>> +    DwMmcPassThruResetDevice
>>> +  },
>>> +  NULL,                             // PlatformDwMmc
>>> +  0,                                // PreviousSlot
>>> +  NULL,                             // TimerEvent
>>> +  NULL,                             // ConnectEvent
>>> +                                    // Queue
>>> +  INITIALIZE_LIST_HEAD_VARIABLE (gDwMmcHcTemplate.Queue),
>>> +  {                                 // Slot
>>> +    {0, UnknownSlot, 0, 0, 0}
>>> +  },
>>> +  {                                 // Capability
>>> +    {0}
>>> +  },
>>> +  {                                 // MaxCurrent
>>> +    0
>>> +  },
>>> +  0                                 // ControllerVersion
>>> +};
>>> +
>>> +SD_DEVICE_PATH    mSdDpTemplate = {
>>> +  {
>>> +    MESSAGING_DEVICE_PATH,
>>> +    MSG_SD_DP,
>>> +    {
>>> +      (UINT8) (sizeof (SD_DEVICE_PATH)),
>>> +      (UINT8) ((sizeof (SD_DEVICE_PATH)) >> 8)
>>> +    }
>>> +  },
>>> +  0
>>> +};
>>> +
>>> +EMMC_DEVICE_PATH    mEmmcDpTemplate = {
>>> +  {
>>> +    MESSAGING_DEVICE_PATH,
>>> +    MSG_EMMC_DP,
>>> +    {
>>> +      (UINT8) (sizeof (EMMC_DEVICE_PATH)),
>>> +      (UINT8) ((sizeof (EMMC_DEVICE_PATH)) >> 8)
>>> +    }
>>> +  },
>>> +  0
>>> +};
>>> +
>>> +//
>>> +// Prioritized function list to detect card type.
>>> +// User could add other card detection logic here.
>>> +//
>>> +DWMMC_CARD_TYPE_DETECT_ROUTINE
>> mCardTypeDetectRoutineTable[] = {
>>> +  EmmcIdentification,
>>> +  SdCardIdentification,
>>> +  NULL
>>> +};
>>> +
>>> +/**
>>> +  The entry point for SD host controller driver, used to install this driver on
>> the ImageHandle.
>>> +
>>> +  @param[in]  ImageHandle   The firmware allocated handle for this driver
>> image.
>>> +  @param[in]  SystemTable   Pointer to the EFI system table.
>>> +
>>> +  @retval EFI_SUCCESS   Driver loaded.
>>> +  @retval other         Driver not loaded.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +InitializeDwMmcHcDxe (
>>> +  IN EFI_HANDLE        ImageHandle,
>>> +  IN EFI_SYSTEM_TABLE  *SystemTable
>>> +  )
>>> +{
>>> +  EFI_STATUS           Status;
>>> +
>>> +  Status = EfiLibInstallDriverBindingComponentName2 (
>>> +             ImageHandle,
>>> +             SystemTable,
>>> +             &gDwMmcHcDriverBinding,
>>> +             ImageHandle,
>>> +             &gDwMmcHcComponentName,
>>> +             &gDwMmcHcComponentName2
>>> +             );
>>> +  ASSERT_EFI_ERROR (Status);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Call back function when the timer event is signaled.
>>> +
>>> +  @param[in]  Event     The Event this notify function registered to.
>>> +  @param[in]  Context   Pointer to the context data registered to the
>>> +                        Event.
>>> +
>>> +**/
>>> +VOID
>>> +EFIAPI
>>> +ProcessAsyncTaskList (
>>> +  IN EFI_EVENT          Event,
>>> +  IN VOID*              Context
>>> +  )
>>> +{
>>> +  DW_MMC_HC_PRIVATE_DATA              *Private;
>>> +  LIST_ENTRY                          *Link;
>>> +  DW_MMC_HC_TRB                       *Trb;
>>> +  EFI_STATUS                          Status;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET *Packet;
>>> +  BOOLEAN                             InfiniteWait;
>>> +  EFI_EVENT                           TrbEvent;
>>> +
>>> +  Private = (DW_MMC_HC_PRIVATE_DATA *)Context;
>>> +
>>> +  //
>>> +  // Check if the first entry in the async I/O queue is done or not.
>>> +  //
>>> +  Status = EFI_SUCCESS;
>>> +  Trb    = NULL;
>>> +  Link   = GetFirstNode (&Private->Queue);
>>> +  if (!IsNull (&Private->Queue, Link)) {
>>> +    Trb = DW_MMC_HC_TRB_FROM_THIS (Link);
>>> +    if (!Private->Slot[Trb->Slot].MediaPresent) {
>>> +      Status = EFI_NO_MEDIA;
>>> +      goto Done;
>>> +    }
>>> +    if (!Trb->Started) {
>>> +      //
>>> +      // Check whether the cmd/data line is ready for transfer.
>>> +      //
>>> +      Status = DwMmcCheckTrbEnv (Private, Trb);
>>> +      if (!EFI_ERROR (Status)) {
>>> +        Trb->Started = TRUE;
>>> +        Status = DwMmcExecTrb (Private, Trb);
>>> +        if (EFI_ERROR (Status)) {
>>> +          goto Done;
>>> +        }
>>> +      } else {
>>> +        goto Done;
>>> +      }
>>> +    }
>>> +    Status = DwMmcCheckTrbResult (Private, Trb);
>>> +  }
>>> +
>>> +Done:
>>> +  if ((Trb != NULL) && (Status == EFI_NOT_READY)) {
>>> +    Packet = Trb->Packet;
>>> +    if (Packet->Timeout == 0) {
>>> +      InfiniteWait = TRUE;
>>> +    } else {
>>> +      InfiniteWait = FALSE;
>>> +    }
>>> +    if ((!InfiniteWait) && (Trb->Timeout-- == 0)) {
>>> +      RemoveEntryList (Link);
>>> +      Trb->Packet->TransactionStatus = EFI_TIMEOUT;
>>> +      TrbEvent = Trb->Event;
>>> +      DwMmcFreeTrb (Trb);
>>> +      DEBUG ((
>>> +        DEBUG_VERBOSE,
>>> +        "ProcessAsyncTaskList(): Signal Event %p EFI_TIMEOUT\n",
>>> +        TrbEvent
>>> +        ));
>>> +      gBS->SignalEvent (TrbEvent);
>>> +      return;
>>> +    }
>>> +  }
>>> +  if ((Trb != NULL) && (Status != EFI_NOT_READY)) {
>>> +    RemoveEntryList (Link);
>>> +    Trb->Packet->TransactionStatus = Status;
>>> +    TrbEvent = Trb->Event;
>>> +    DwMmcFreeTrb (Trb);
>>> +    DEBUG ((
>>> +      DEBUG_VERBOSE,
>>> +      "ProcessAsyncTaskList(): Signal Event %p with %r\n",
>>> +      TrbEvent,
>>> +      Status
>>> +      ));
>>> +    gBS->SignalEvent (TrbEvent);
>>> +  }
>>> +  return;
>>> +}
>>> +
>>> +/**
>>> +  Sd removable device enumeration callback function when the timer
>> event is signaled.
>>> +
>>> +  @param[in]  Event     The Event this notify function registered to.
>>> +  @param[in]  Context   Pointer to the context data registered to the
>>> +                        Event.
>>> +
>>> +**/
>>> +VOID
>>> +EFIAPI
>>> +DwMmcHcEnumerateDevice (
>>> +  IN EFI_EVENT          Event,
>>> +  IN VOID*              Context
>>> +  )
>>> +{
>>> +  DW_MMC_HC_PRIVATE_DATA              *Private;
>>> +  EFI_STATUS                          Status;
>>> +  BOOLEAN                             MediaPresent;
>>> +  UINT32                              RoutineNum;
>>> +  DWMMC_CARD_TYPE_DETECT_ROUTINE      *Routine;
>>> +  UINTN                               Index;
>>> +  LIST_ENTRY                          *Link;
>>> +  LIST_ENTRY                          *NextLink;
>>> +  DW_MMC_HC_TRB                       *Trb;
>>> +  EFI_TPL                             OldTpl;
>>> +
>>> +  Private = (DW_MMC_HC_PRIVATE_DATA *)Context;
>>> +
>>> +  if ((Private->Slot[0].Enable) &&
>>> +      (Private->Slot[0].SlotType == RemovableSlot)) {
>>> +    Status = DwMmcHcCardDetect (
>>> +               Private->DevBase,
>>> +               Private->ControllerHandle,
>>> +               0,
>>> +               &MediaPresent
>>> +               );
>>> +    if ((Status == EFI_MEDIA_CHANGED) && !MediaPresent) {
>>> +      DEBUG ((
>>> +        DEBUG_INFO,
>>> +        "DwMmcHcEnumerateDevice: device disconnected at %p\n",
>>> +        Private->DevBase
>>> +        ));
>>> +      Private->Slot[0].MediaPresent = FALSE;
>>> +      //
>>> +      // Signal all async task events at the slot with EFI_NO_MEDIA status.
>>> +      //
>>> +      OldTpl = gBS->RaiseTPL (TPL_NOTIFY);
>>> +      for (Link = GetFirstNode (&Private->Queue);
>>> +           !IsNull (&Private->Queue, Link);
>>> +           Link = NextLink) {
>>> +        NextLink = GetNextNode (&Private->Queue, Link);
>>> +        Trb = DW_MMC_HC_TRB_FROM_THIS (Link);
>>> +        if (Trb->Slot == 0) {
>>> +          RemoveEntryList (Link);
>>> +          Trb->Packet->TransactionStatus = EFI_NO_MEDIA;
>>> +          gBS->SignalEvent (Trb->Event);
>>> +          DwMmcFreeTrb (Trb);
>>> +        }
>>> +      }
>>> +      gBS->RestoreTPL (OldTpl);
>>> +      //
>>> +      // Notify the upper layer the connect state change through
>>> +      // ReinstallProtocolInterface.
>>> +      //
>>> +      gBS->ReinstallProtocolInterface (
>>> +            Private->ControllerHandle,
>>> +            &gEfiSdMmcPassThruProtocolGuid,
>>> +            &Private->PassThru,
>>> +            &Private->PassThru
>>> +            );
>>> +    }
>>> +    if ((Status == EFI_MEDIA_CHANGED) && MediaPresent) {
>>> +      DEBUG ((
>>> +        DEBUG_INFO,
>>> +        "DwMmcHcEnumerateDevice: device connected at %p\n",
>>> +        Private->DevBase
>>> +        ));
>>> +      //
>>> +      // Initialize slot and start identification process for the new
>>> +      // attached device
>>> +      //
>>> +      Status = DwMmcHcInitHost (Private->DevBase, Private->Capability[0]);
>>> +      if (EFI_ERROR (Status)) {
>>> +        return;
>>> +      }
>>> +      //
>>> +      // Reset the specified slot of the SD/MMC Pci Host Controller
>>> +      //
>>> +      Status = DwMmcHcReset (Private->DevBase, Private->Capability[0]);
>>> +      if (EFI_ERROR (Status)) {
>>> +        return;
>>> +      }
>>> +
>>> +      Private->Slot[0].MediaPresent = TRUE;
>>> +      RoutineNum = sizeof (mCardTypeDetectRoutineTable) /
>>> +                   sizeof (DWMMC_CARD_TYPE_DETECT_ROUTINE);
>>> +      for (Index = 0; Index < RoutineNum; Index++) {
>>> +        Routine = &mCardTypeDetectRoutineTable[Index];
>>> +        if (*Routine != NULL) {
>>> +          Status = (*Routine) (Private);
>>> +          if (!EFI_ERROR (Status)) {
>>> +            break;
>>> +          }
>>> +        }
>>> +      }
>>> +      //
>>> +      // This card doesn't get initialized correctly.
>>> +      //
>>> +      if (Index == RoutineNum) {
>>> +        return;
>>> +      }
>>> +
>>> +      //
>>> +      // Notify the upper layer the connect state change through
>>> +      // ReinstallProtocolInterface.
>>> +      //
>>> +      gBS->ReinstallProtocolInterface (
>>> +             Private->ControllerHandle,
>>> +             &gEfiSdMmcPassThruProtocolGuid,
>>> +             &Private->PassThru,
>>> +             &Private->PassThru
>>> +             );
>>> +    }
>>> +  }
>>> +
>>> +  return;
>>> +}
>>> +
>>> +/**
>>> +  Reset the specified SD/MMC host controller and enable all interrupts.
>>> +
>>> +  @param[in] DevBase        The Mmio Device Base Address.
>>> +
>>> +  @retval EFI_SUCCESS       The software reset executes successfully.
>>> +  @retval Others            The software reset fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcReset (
>>> +  IN UINTN    DevBase,
>>> +  IN DW_MMC_HC_SLOT_CAP        Capability
>>> +  )
>>> +{
>>> +  EFI_STATUS                Status;
>>> +  UINT32                    BlkSize;
>>> +
>>> +  //
>>> +  // Enable all interrupt after reset all.
>>> +  //
>>> +  Status = DwMmcHcEnableInterrupt (DevBase);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((DEBUG_ERROR, "DwMmcHcReset: enable interrupts fail:
>> %r\n", Status));
>>> +    return Status;
>>> +  }
>>> +  Status = DwMmcHcInitTimeoutCtrl (DevBase);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  BlkSize = DW_MMC_BLOCK_SIZE;
>>> +  MmioWrite32 (DevBase + DW_MMC_BLKSIZ, BlkSize);
>>> +
>>> +  Status = DwMmcHcInitClockFreq (DevBase, Capability);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  Status = DwMmcHcSetBusWidth (DevBase, FALSE, 1);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Tests to see if this driver supports a given controller. If a child device
>>> +  is provided, it further tests to see if this driver supports creating a
>>> +  handle for the specified child device.
>>> +
>>> +  This function checks to see if the driver specified by This supports the
>>> +  device specified by ControllerHandle. Drivers will typically use the device
>>> +  path attached to ControllerHandle and/or the services from the bus I/O
>>> +  abstraction attached to ControllerHandle to determine if the driver
>> supports
>>> +  ControllerHandle. This function may be called many times during
>> platform
>>> +  initialization. In order to reduce boot times, the tests performed by this
>>> +  function must be very small, and take as little time as possible to
>> execute.
>>> +  This function must not change the state of any hardware devices, and
>> this
>>> +  function must be aware that the device specified by ControllerHandle
>> may
>>> +  already be managed by the same driver or a different driver. This
>> function
>>> +  must match its calls to AllocatePages() with FreePages(), AllocatePool()
>> with
>>> +  FreePool(), and OpenProtocol() with CloseProtocol(). Since
>> ControllerHandle
>>> +  may have been previously started by the same driver, if a protocol is
>> already
>>> +  in the opened state, then it must not be closed with CloseProtocol(). This
>> is
>>> +  required to guarantee the state of ControllerHandle is not modified by
>> this
>>> +  function.
>>> +
>>> +  @param[in]  This                 A pointer to the
>> EFI_DRIVER_BINDING_PROTOCOL
>>> +                                   instance.
>>> +  @param[in]  ControllerHandle     The handle of the controller to test. This
>>> +                                   handle must support a protocol interface that
>>> +                                   supplies an I/O abstraction to the driver.
>>> +  @param[in]  RemainingDevicePath  A pointer to the remaining portion of
>> a
>>> +                                   device path.  This parameter is ignored by
>>> +                                   device drivers, and is optional for bus
>>> +                                   drivers. For bus drivers, if this parameter
>>> +                                   is not NULL, then the bus driver must deter-
>>> +                                   mine if the bus controller specified by
>>> +                                   ControllerHandle and the child controller
>>> +                                   specified by RemainingDevicePath are both
>>> +                                   supported by this bus driver.
>>> +
>>> +  @retval EFI_SUCCESS              The device specified by ControllerHandle
>> and
>>> +                                   RemainingDevicePath is supported by the
>>> +                                   driver specified by This.
>>> +  @retval EFI_ALREADY_STARTED      The device specified by
>> ControllerHandle and
>>> +                                   RemainingDevicePath is already being managed
>>> +                                   by the driver specified by This.
>>> +  @retval EFI_ACCESS_DENIED        The device specified by
>> ControllerHandle and
>>> +                                   RemainingDevicePath is already being managed
>>> +                                   by a different driver or an application that
>>> +                                   requires exclusive access.
>>> +                                   Currently not implemented.
>>> +  @retval EFI_UNSUPPORTED          The device specified by
>> ControllerHandle and
>>> +                                   RemainingDevicePath is not supported by the
>>> +                                   driver specified by This.
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcDriverBindingSupported (
>>> +  IN EFI_DRIVER_BINDING_PROTOCOL *This,
>>> +  IN EFI_HANDLE                  Controller,
>>> +  IN EFI_DEVICE_PATH_PROTOCOL    *RemainingDevicePath
>>> +  )
>>> +{
>>> +  EFI_STATUS                Status;
>>> +  EFI_DEVICE_PATH_PROTOCOL  *ParentDevicePath;
>>> +  NON_DISCOVERABLE_DEVICE   *Dev;
>>> +  PLATFORM_DW_MMC_PROTOCOL  *PlatformDwMmc;
>>> +
>>> +  ParentDevicePath = NULL;
>>> +
>>> +  Status = gBS->LocateProtocol (
>>> +                  &gPlatformDwMmcProtocolGuid,
>>> +                  NULL,
>>> +                  (VOID **) &PlatformDwMmc
>>> +                  );
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  Status = gBS->OpenProtocol (
>>> +                  Controller,
>>> +                  &gEfiDevicePathProtocolGuid,
>>> +                  (VOID *) &ParentDevicePath,
>>> +                  This->DriverBindingHandle,
>>> +                  Controller,
>>> +                  EFI_OPEN_PROTOCOL_BY_DRIVER
>>> +                  );
>>> +  if (EFI_ERROR (Status)) {
>>> +    //
>>> +    // EFI_ALREADY_STARTED is also an error.
>>> +    //
>>> +    return Status;
>>> +  }
>>> +  //
>>> +  // Close the protocol because we don't use it here.
>>> +  //
>>> +  gBS->CloseProtocol (
>>> +        Controller,
>>> +        &gEfiDevicePathProtocolGuid,
>>> +        This->DriverBindingHandle,
>>> +        Controller
>>> +        );
>>> +
>>> +  //
>>> +  // Now test the EmbeddedNonDiscoverableIoProtocol.
>>> +  //
>>> +  Status = gBS->OpenProtocol (
>>> +                  Controller,
>>> +                  &gEdkiiNonDiscoverableDeviceProtocolGuid,
>>> +                  (VOID **) &Dev,
>>> +                  This->DriverBindingHandle,
>>> +                  Controller,
>>> +                  EFI_OPEN_PROTOCOL_BY_DRIVER
>>> +                  );
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +  gBS->CloseProtocol (
>>> +         Controller,
>>> +         &gEdkiiNonDiscoverableDeviceProtocolGuid,
>>> +         This->DriverBindingHandle,
>>> +         Controller
>>> +         );
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Starts a device controller or a bus controller.
>>> +
>>> +  The Start() function is designed to be invoked from the EFI boot service
>>> +  ConnectController().
>>> +  As a result, much of the error checking on the parameters to Start() has
>>> +  been moved into this
>>> +  common boot service. It is legal to call Start() from other locations,
>>> +  but the following calling restrictions must be followed or the system
>>> +  behavior will not be deterministic.
>>> +  1. ControllerHandle must be a valid EFI_HANDLE.
>>> +  2. If RemainingDevicePath is not NULL, then it must be a pointer to a
>>> +     naturally aligned EFI_DEVICE_PATH_PROTOCOL.
>>> +  3. Prior to calling Start(), the Supported() function for the driver
>>> +     specified by This must have been called with the same calling
>> parameters,
>>> +     and Supported() must have returned EFI_SUCCESS.
>>> +
>>> +  @param[in]  This                 A pointer to the
>> EFI_DRIVER_BINDING_PROTOCOL
>>> +                                   instance.
>>> +  @param[in]  ControllerHandle     The handle of the controller to start.
>> This
>>> +                                   handle must support a protocol interface
>>> +                                   that supplies an I/O abstraction to the
>>> +                                   driver.
>>> +  @param[in]  RemainingDevicePath  A pointer to the remaining portion of
>> a
>>> +                                   device path.  This parameter is ignored by
>>> +                                   device drivers, and is optional for bus
>>> +                                   drivers.
>>> +                                   For a bus driver, if this parameter is NULL,
>>> +                                   then handles for all the children of
>>> +                                   Controller are created by this driver.
>>> +                                   If this parameter is not NULL and the first
>>> +                                   Device Path Node is not the End of Device
>>> +                                   Path Node, then only the handle for the
>>> +                                   child device specified by the first Device
>>> +                                   Path Node of RemainingDevicePath is created
>>> +                                   by this driver.
>>> +                                   If the first Device Path Node of
>>> +                                   RemainingDevicePath is the End of Device Path
>>> +                                   Node, no child handle is created by this
>>> +                                   driver.
>>> +
>>> +  @retval EFI_SUCCESS              The device was started.
>>> +  @retval EFI_DEVICE_ERROR         The device could not be started due to a
>>> +                                   device error. Currently not implemented.
>>> +  @retval EFI_OUT_OF_RESOURCES     The request could not be
>> completed due to a
>>> +                                   lack of resources.
>>> +  @retval Others                   The driver failded to start the device.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcDriverBindingStart (
>>> +  IN EFI_DRIVER_BINDING_PROTOCOL     *This,
>>> +  IN EFI_HANDLE                      Controller,
>>> +  IN EFI_DEVICE_PATH_PROTOCOL        *RemainingDevicePath
>>> +  )
>>> +{
>>> +  EFI_STATUS                      Status;
>>> +  DW_MMC_HC_PRIVATE_DATA          *Private;
>>> +
>>> +  NON_DISCOVERABLE_DEVICE         *Dev;
>>> +
>>> +  BOOLEAN                         MediaPresent;
>>> +  DWMMC_CARD_TYPE_DETECT_ROUTINE  *Routine;
>>> +  UINT8                           Index;
>>> +  UINT32                          RoutineNum;
>>> +  PLATFORM_DW_MMC_PROTOCOL        *PlatformDwMmc;
>>> +
>>> +  Status = gBS->LocateProtocol (
>>> +                  &gPlatformDwMmcProtocolGuid,
>>> +                  NULL,
>>> +                  (VOID **) &PlatformDwMmc
>>> +                  );
>>> +  if (EFI_ERROR (Status)) {
>>> +  DEBUG ((DEBUG_ERROR, "err %d", __LINE__));
>>> +    return Status;
>>> +  }
>>> +
>>> +  Status = gBS->OpenProtocol (
>>> +                  Controller,
>>> +                  &gEdkiiNonDiscoverableDeviceProtocolGuid,
>>> +                  (VOID **) &Dev,
>>> +                  This->DriverBindingHandle,
>>> +                  Controller,
>>> +                  EFI_OPEN_PROTOCOL_BY_DRIVER
>>> +                  );
>>> +  if (EFI_ERROR (Status)) {
>>> +  DEBUG ((DEBUG_ERROR, "err %d", __LINE__));
>>> +    return Status;
>>> +  }
>>> +
>>> +  Private = AllocateCopyPool (sizeof (DW_MMC_HC_PRIVATE_DATA),
>> &gDwMmcHcTemplate);
>>> +  if (Private == NULL) {
>>> +  DEBUG ((DEBUG_ERROR, "err %d", __LINE__));
>>> +    Status = EFI_OUT_OF_RESOURCES;
>>> +    goto Done;
>>> +  }
>>> +
>>> +  Private->ControllerHandle = Controller;
>>> +  Private->DevBase          = Dev->Resources[0].AddrRangeMin;
>>> +  Private->PlatformDwMmc    = PlatformDwMmc;
>>> +  InitializeListHead (&Private->Queue);
>>> +
>>> +  Status = Private->PlatformDwMmc->GetCapability (Controller, 0,
>> &Private->Capability[0]);
>>> +
>>> +  if (EFI_ERROR (Status)) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  if (Private->Capability[0].BaseClkFreq == 0) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  DumpCapabilityReg (0, &Private->Capability[0]);
>>> +
>>> +  MediaPresent = FALSE;
>>> +
>>> +  Status = Private->PlatformDwMmc->CardDetect (Controller, 0);
>>> +  Status = DwMmcHcCardDetect (Private->DevBase, Controller, 0,
>> &MediaPresent);
>>> +  if (MediaPresent == FALSE) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  //
>>> +  // Initialize slot and start identification process for the new attached
>> device
>>> +  //
>>> +  Status = DwMmcHcInitHost (Private->DevBase, Private->Capability[0]);
>>> +  if (EFI_ERROR (Status)) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  //
>>> +  // Reset HC
>>> +  //
>>> +  Status = DwMmcHcReset (Private->DevBase, Private->Capability[0]);
>>> +  if (EFI_ERROR (Status)) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  Private->Slot[0].CardType = Private->Capability[0].CardType;
>>> +  Private->Slot[0].Enable = TRUE;
>>> +  Private->Slot[0].MediaPresent = TRUE;
>>> +
>>> +  RoutineNum = sizeof (mCardTypeDetectRoutineTable) / sizeof
>> (DWMMC_CARD_TYPE_DETECT_ROUTINE);
>>> +  for (Index = 0; Index < RoutineNum; Index++) {
>>> +    Routine = &mCardTypeDetectRoutineTable[Index];
>>> +    if (*Routine != NULL) {
>>> +      Status = (*Routine) (Private);
>>> +      if (!EFI_ERROR (Status)) {
>>> +        break;
>>> +      }
>>> +    }
>>> +  }
>>> +
>>> +  //
>>> +  // Start the asynchronous I/O monitor
>>> +  //
>>> +  Status = gBS->CreateEvent (
>>> +                  EVT_TIMER | EVT_NOTIFY_SIGNAL,
>>> +                  TPL_NOTIFY,
>>> +                  ProcessAsyncTaskList,
>>> +                  Private,
>>> +                  &Private->TimerEvent
>>> +                  );
>>> +  if (EFI_ERROR (Status)) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  Status = gBS->SetTimer (Private->TimerEvent, TimerPeriodic,
>> DW_MMC_HC_ASYNC_TIMER);
>>> +  if (EFI_ERROR (Status)) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  //
>>> +  // Start the Sd removable device connection enumeration
>>> +  //
>>> +  Status = gBS->CreateEvent (
>>> +                  EVT_TIMER | EVT_NOTIFY_SIGNAL,
>>> +                  TPL_CALLBACK,
>>> +                  DwMmcHcEnumerateDevice,
>>> +                  Private,
>>> +                  &Private->ConnectEvent
>>> +                  );
>>> +  if (EFI_ERROR (Status)) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  Status = gBS->SetTimer (Private->ConnectEvent, TimerPeriodic,
>> DW_MMC_HC_ENUM_TIMER);
>>> +  if (EFI_ERROR (Status)) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  Status = gBS->InstallMultipleProtocolInterfaces (
>>> +                  &Controller,
>>> +                  &gEfiSdMmcPassThruProtocolGuid,
>>> +                  &(Private->PassThru),
>>> +                  NULL
>>> +                  );
>>> +
>>> +  DEBUG ((DEBUG_INFO, "DwMmcHcDriverBindingStart: %r End on %x\n",
>> Status, Controller));
>>> +
>>> +Done:
>>> +  if (EFI_ERROR (Status)) {
>>> +    if ((Private != NULL) && (Private->TimerEvent != NULL)) {
>>> +      gBS->CloseEvent (Private->TimerEvent);
>>> +    }
>>> +
>>> +    if ((Private != NULL) && (Private->ConnectEvent != NULL)) {
>>> +      gBS->CloseEvent (Private->ConnectEvent);
>>> +    }
>>> +
>>> +    if (Private != NULL) {
>>> +      FreePool (Private);
>>> +    }
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Stops a device controller or a bus controller.
>>> +
>>> +  The Stop() function is designed to be invoked from the EFI boot service
>>> +  DisconnectController().
>>> +  As a result, much of the error checking on the parameters to Stop() has
>> been
>>> +  moved into this common boot service. It is legal to call Stop() from other
>>> +  locations, but the following calling restrictions must be followed or the
>>> +  system behavior will not be deterministic.
>>> +  1. ControllerHandle must be a valid EFI_HANDLE that was used on a
>> previous
>>> +     call to this same driver's Start() function.
>>> +  2. The first NumberOfChildren handles of ChildHandleBuffer must all be a
>> valid
>>> +     EFI_HANDLE. In addition, all of these handles must have been created
>> in
>>> +     this driver's Start() function, and the Start() function must have called
>>> +     OpenProtocol() on ControllerHandle with an Attribute of
>>> +     EFI_OPEN_PROTOCOL_BY_CHILD_CONTROLLER.
>>> +
>>> +  @param[in]  This              A pointer to the
>> EFI_DRIVER_BINDING_PROTOCOL
>>> +                                instance.
>>> +  @param[in]  ControllerHandle  A handle to the device being stopped.
>> The handle
>>> +                                must support a bus specific I/O protocol for the
>>> +                                driver to use to stop the device.
>>> +  @param[in]  NumberOfChildren  The number of child device handles in
>>> +                                ChildHandleBuffer.
>>> +  @param[in]  ChildHandleBuffer An array of child handles to be freed.
>> May be
>>> +                                NULL if NumberOfChildren is 0.
>>> +
>>> +  @retval EFI_SUCCESS           The device was stopped.
>>> +  @retval EFI_DEVICE_ERROR      The device could not be stopped due to a
>> device
>>> +                                error.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcHcDriverBindingStop (
>>> +  IN  EFI_DRIVER_BINDING_PROTOCOL     *This,
>>> +  IN  EFI_HANDLE                      Controller,
>>> +  IN  UINTN                           NumberOfChildren,
>>> +  IN  EFI_HANDLE                      *ChildHandleBuffer
>>> +  )
>>> +{
>>> +  EFI_STATUS                          Status;
>>> +  EFI_SD_MMC_PASS_THRU_PROTOCOL       *PassThru;
>>> +  DW_MMC_HC_PRIVATE_DATA              *Private;
>>> +  LIST_ENTRY                          *Link;
>>> +  LIST_ENTRY                          *NextLink;
>>> +  DW_MMC_HC_TRB                       *Trb;
>>> +
>>> +  DEBUG ((DEBUG_INFO, "DwMmcHcDriverBindingStop: Start\n"));
>>> +
>>> +  Status = gBS->OpenProtocol (
>>> +                  Controller,
>>> +                  &gEfiSdMmcPassThruProtocolGuid,
>>> +                  (VOID**) &PassThru,
>>> +                  This->DriverBindingHandle,
>>> +                  Controller,
>>> +                  EFI_OPEN_PROTOCOL_GET_PROTOCOL
>>> +                  );
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  Private = DW_MMC_HC_PRIVATE_FROM_THIS (PassThru);
>>> +  //
>>> +  // Close Non-Blocking timer and free Task list.
>>> +  //
>>> +  if (Private->TimerEvent != NULL) {
>>> +    gBS->CloseEvent (Private->TimerEvent);
>>> +    Private->TimerEvent = NULL;
>>> +  }
>>> +  if (Private->ConnectEvent != NULL) {
>>> +    gBS->CloseEvent (Private->ConnectEvent);
>>> +    Private->ConnectEvent = NULL;
>>> +  }
>>> +  //
>>> +  // As the timer is closed, there is no needs to use TPL lock to
>>> +  // protect the critical region "queue".
>>> +  //
>>> +  for (Link = GetFirstNode (&Private->Queue);
>>> +       !IsNull (&Private->Queue, Link);
>>> +       Link = NextLink) {
>>> +    NextLink = GetNextNode (&Private->Queue, Link);
>>> +    RemoveEntryList (Link);
>>> +    Trb = DW_MMC_HC_TRB_FROM_THIS (Link);
>>> +    Trb->Packet->TransactionStatus = EFI_ABORTED;
>>> +    gBS->SignalEvent (Trb->Event);
>>> +    DwMmcFreeTrb (Trb);
>>> +  }
>>> +
>>> +  //
>>> +  // Uninstall Block I/O protocol from the device handle
>>> +  //
>>> +  Status = gBS->UninstallProtocolInterface (
>>> +                  Controller,
>>> +                  &gEfiSdMmcPassThruProtocolGuid,
>>> +                  &(Private->PassThru)
>>> +                  );
>>> +
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  gBS->CloseProtocol (
>>> +         Controller,
>>> +         &gEfiPciIoProtocolGuid,
>>> +         This->DriverBindingHandle,
>>> +         Controller
>>> +         );
>>> +
>>> +  FreePool (Private);
>>> +
>>> +  DEBUG ((DEBUG_INFO, "DwMmcHcDriverBindingStop: End with %r\n",
>> Status));
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Sends SD command to an SD card that is attached to the SD controller.
>>> +
>>> +  The PassThru() function sends the SD command specified by Packet to
>> the SD
>>> +  card specified by Slot.
>>> +
>>> +  If Packet is successfully sent to the SD card, then EFI_SUCCESS is
>> returned.
>>> +
>>> +  If a device error occurs while sending the Packet, then
>> EFI_DEVICE_ERROR is
>>> +  returned.
>>> +
>>> +  If Slot is not in a valid range for the SD controller, then
>>> +  EFI_INVALID_PARAMETER is returned.
>>> +
>>> +  If Packet defines a data command but both InDataBuffer and
>> OutDataBuffer are
>>> +  NULL, EFI_INVALID_PARAMETER is returned.
>>> +
>>> +  @param[in]     This           A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                                instance.
>>> +  @param[in]     Slot           The slot number of the SD card to send the
>>> +                                command to.
>>> +  @param[in,out] Packet         A pointer to the SD command data structure.
>>> +  @param[in]     Event          If Event is NULL, blocking I/O is performed. If
>>> +                                Event is not NULL, then nonblocking I/O is
>>> +                                performed, and Event will be signaled when the
>>> +                                Packet completes.
>>> +
>>> +  @retval EFI_SUCCESS           The SD Command Packet was sent by the
>> host.
>>> +  @retval EFI_DEVICE_ERROR      A device error occurred while attempting
>> to send
>>> +                                the SD command Packet.
>>> +  @retval EFI_INVALID_PARAMETER Packet, Slot, or the contents of the
>> Packet is
>>> +                                invalid.
>>> +  @retval EFI_INVALID_PARAMETER Packet defines a data command but
>> both
>>> +                                InDataBuffer and OutDataBuffer are NULL.
>>> +  @retval EFI_NO_MEDIA          SD Device not present in the Slot.
>>> +  @retval EFI_UNSUPPORTED       The command described by the SD
>> Command Packet
>>> +                                is not supported by the host controller.
>>> +  @retval EFI_BAD_BUFFER_SIZE   The InTransferLength or
>> OutTransferLength
>>> +                                exceeds the limit supported by SD card
>>> +                                ( i.e. if the number of bytes exceed the Last
>>> +                                LBA).
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcPassThruPassThru (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL         *This,
>>> +  IN     UINT8                                 Slot,
>>> +  IN OUT EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   *Packet,
>>> +  IN     EFI_EVENT                             Event    OPTIONAL
>>> +  )
>>> +{
>>> +  EFI_STATUS                      Status;
>>> +  DW_MMC_HC_PRIVATE_DATA          *Private;
>>> +  DW_MMC_HC_TRB                   *Trb;
>>> +  EFI_TPL                         OldTpl;
>>> +
>>> +  if ((This == NULL) || (Packet == NULL)) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  if ((Packet->SdMmcCmdBlk == NULL) || (Packet->SdMmcStatusBlk ==
>> NULL)) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  if ((Packet->OutDataBuffer == NULL) && (Packet->OutTransferLength !=
>> 0)) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  if ((Packet->InDataBuffer == NULL) && (Packet->InTransferLength != 0))
>> {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  Private = DW_MMC_HC_PRIVATE_FROM_THIS (This);
>>> +
>>> +  if (!Private->Slot[Slot].Enable) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  if (!Private->Slot[Slot].MediaPresent) {
>>> +    return EFI_NO_MEDIA;
>>> +  }
>>> +
>>> +  Trb = DwMmcCreateTrb (Private, Slot, Packet, Event);
>>> +  if (Trb == NULL) {
>>> +    return EFI_OUT_OF_RESOURCES;
>>> +  }
>>> +  //
>>> +  // Immediately return for async I/O.
>>> +  //
>>> +  if (Event != NULL) {
>>> +    return EFI_SUCCESS;
>>> +  }
>>> +
>>> +  //
>>> +  // Wait async I/O list is empty before execute sync I/O operation.
>>> +  //
>>> +  while (TRUE) {
>>> +    OldTpl = gBS->RaiseTPL (TPL_NOTIFY);
>>> +    if (IsListEmpty (&Private->Queue)) {
>>> +      gBS->RestoreTPL (OldTpl);
>>> +      break;
>>> +    }
>>> +    gBS->RestoreTPL (OldTpl);
>>> +  }
>>> +
>>> +  Status = DwMmcWaitTrbEnv (Private, Trb);
>>> +  if (EFI_ERROR (Status)) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  Status = DwMmcExecTrb (Private, Trb);
>>> +  if (EFI_ERROR (Status)) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +  Status = DwMmcWaitTrbResult (Private, Trb);
>>> +  if (EFI_ERROR (Status)) {
>>> +    goto Done;
>>> +  }
>>> +
>>> +Done:
>>> +  if (Trb != NULL) {
>>> +    DwMmcFreeTrb (Trb);
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Used to retrieve next slot numbers supported by the SD controller. The
>>> +  function returns information about all available slots (populated or
>>> +  not-populated).
>>> +
>>> +  The GetNextSlot() function retrieves the next slot number on an SD
>> controller.
>>> +  If on input Slot is 0xFF, then the slot number of the first slot on the SD
>>> +  controller is returned.
>>> +
>>> +  If Slot is a slot number that was returned on a previous call to
>>> +  GetNextSlot(), then the slot number of the next slot on the SD controller
>> is
>>> +  returned.
>>> +
>>> +  If Slot is not 0xFF and Slot was not returned on a previous call to
>>> +  GetNextSlot(), EFI_INVALID_PARAMETER is returned.
>>> +
>>> +  If Slot is the slot number of the last slot on the SD controller, then
>>> +  EFI_NOT_FOUND is returned.
>>> +
>>> +  @param[in]     This           A pointer to the
>> EFI_SD_MMMC_PASS_THRU_PROTOCOL
>>> +                                instance.
>>> +  @param[in,out] Slot           On input, a pointer to a slot number on the SD
>>> +                                controller.
>>> +                                On output, a pointer to the next slot number on
>>> +                                the SD controller.
>>> +                                An input value of 0xFF retrieves the first slot
>>> +                                number on the SD controller.
>>> +
>>> +  @retval EFI_SUCCESS           The next slot number on the SD controller
>> was
>>> +                                returned in Slot.
>>> +  @retval EFI_NOT_FOUND         There are no more slots on this SD
>> controller.
>>> +  @retval EFI_INVALID_PARAMETER Slot is not 0xFF and Slot was not
>> returned on a
>>> +                                previous call to GetNextSlot().
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcPassThruGetNextSlot (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL        *This,
>>> +  IN OUT UINT8                                *Slot
>>> +  )
>>> +{
>>> +  DW_MMC_HC_PRIVATE_DATA          *Private;
>>> +
>>> +  if ((This == NULL) || (Slot == NULL)) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  Private = DW_MMC_HC_PRIVATE_FROM_THIS (This);
>>> +
>>> +  if (*Slot == 0xFF) {
>>> +    if (Private->Slot[0].Enable) {
>>> +      *Slot = 0;
>>> +      Private->PreviousSlot = 0;
>>> +      return EFI_SUCCESS;
>>> +    }
>>> +    return EFI_NOT_FOUND;
>>> +  } else if (*Slot == Private->PreviousSlot) {
>>> +    return EFI_NOT_FOUND;
>>> +  } else {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +}
>>> +
>>> +/**
>>> +  Used to allocate and build a device path node for an SD card on the SD
>>> +  controller.
>>> +
>>> +  The BuildDevicePath() function allocates and builds a single device node
>>> +  for the SD card specified by Slot.
>>> +
>>> +  If the SD card specified by Slot is not present on the SD controller, then
>>> +  EFI_NOT_FOUND is returned.
>>> +
>>> +  If DevicePath is NULL, then EFI_INVALID_PARAMETER is returned.
>>> +
>>> +  If there are not enough resources to allocate the device path node, then
>>> +  EFI_OUT_OF_RESOURCES is returned.
>>> +
>>> +  Otherwise, DevicePath is allocated with the boot service AllocatePool(),
>>> +  the contents of DevicePath are initialized to describe the SD card
>> specified
>>> +  by Slot, and EFI_SUCCESS is returned.
>>> +
>>> +  @param[in]     This           A pointer to the
>> EFI_SD_MMMC_PASS_THRU_PROTOCOL
>>> +                                instance.
>>> +  @param[in]     Slot           Specifies the slot number of the SD card for
>>> +                                which a device path node is to be allocated and
>>> +                                built.
>>> +  @param[in,out] DevicePath     A pointer to a single device path node that
>>> +                                describes the SD card specified by Slot. This
>>> +                                function is responsible for allocating the
>>> +                                buffer DevicePath with the boot service
>>> +                                AllocatePool(). It is the caller's responsi-
>>> +                                bility to free DevicePath when the caller is
>>> +                                finished with DevicePath.
>>> +
>>> +  @retval EFI_SUCCESS           The device path node that describes the SD
>> card
>>> +                                specified by Slot was allocated and returned in
>>> +                                DevicePath.
>>> +  @retval EFI_NOT_FOUND         The SD card specified by Slot does not
>> exist on
>>> +                                the SD controller.
>>> +  @retval EFI_INVALID_PARAMETER DevicePath is NULL.
>>> +  @retval EFI_OUT_OF_RESOURCES  There are not enough resources to
>> allocate
>>> +                                DevicePath.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcPassThruBuildDevicePath (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL       *This,
>>> +  IN     UINT8                               Slot,
>>> +  IN OUT EFI_DEVICE_PATH_PROTOCOL            **DevicePath
>>> +  )
>>> +{
>>> +  DW_MMC_HC_PRIVATE_DATA          *Private;
>>> +  SD_DEVICE_PATH                  *SdNode;
>>> +  EMMC_DEVICE_PATH                *EmmcNode;
>>> +
>>> +  if ((This == NULL) || (DevicePath == NULL) || (Slot >=
>> DW_MMC_HC_MAX_SLOT)) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  Private = DW_MMC_HC_PRIVATE_FROM_THIS (This);
>>> +
>>> +  if ((!Private->Slot[Slot].Enable) || (!Private->Slot[Slot].MediaPresent)) {
>>> +    return EFI_NOT_FOUND;
>>> +  }
>>> +
>>> +  if (Private->Slot[Slot].CardType == SdCardType) {
>>> +    SdNode = AllocateCopyPool (sizeof (SD_DEVICE_PATH),
>> &mSdDpTemplate);
>>> +    if (SdNode == NULL) {
>>> +      return EFI_OUT_OF_RESOURCES;
>>> +    }
>>> +    SdNode->SlotNumber = Slot;
>>> +
>>> +    *DevicePath = (EFI_DEVICE_PATH_PROTOCOL *) SdNode;
>>> +  } else if (Private->Slot[Slot].CardType == EmmcCardType) {
>>> +    EmmcNode = AllocateCopyPool (sizeof (EMMC_DEVICE_PATH),
>> &mEmmcDpTemplate);
>>> +    if (EmmcNode == NULL) {
>>> +      return EFI_OUT_OF_RESOURCES;
>>> +    }
>>> +    EmmcNode->SlotNumber = Slot;
>>> +
>>> +    *DevicePath = (EFI_DEVICE_PATH_PROTOCOL *) EmmcNode;
>>> +  } else {
>>> +    //
>>> +    // Currently we only support SD and EMMC two device nodes.
>>> +    //
>>> +    return EFI_NOT_FOUND;
>>> +  }
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  This function retrieves an SD card slot number based on the input device
>> path.
>>> +
>>> +  The GetSlotNumber() function retrieves slot number for the SD card
>> specified
>>> +  by the DevicePath node. If DevicePath is NULL,
>> EFI_INVALID_PARAMETER is
>>> +  returned.
>>> +
>>> +  If DevicePath is not a device path node type that the SD Pass Thru driver
>>> +  supports, EFI_UNSUPPORTED is returned.
>>> +
>>> +  @param[in]  This              A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                                instance.
>>> +  @param[in]  DevicePath        A pointer to the device path node that
>> describes
>>> +                                a SD card on the SD controller.
>>> +  @param[out] Slot              On return, points to the slot number of an SD
>>> +                                card on the SD controller.
>>> +
>>> +  @retval EFI_SUCCESS           SD card slot number is returned in Slot.
>>> +  @retval EFI_INVALID_PARAMETER Slot or DevicePath is NULL.
>>> +  @retval EFI_UNSUPPORTED       DevicePath is not a device path node
>> type that
>>> +                                the SD Pass Thru driver supports.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcPassThruGetSlotNumber (
>>> +  IN  EFI_SD_MMC_PASS_THRU_PROTOCOL          *This,
>>> +  IN  EFI_DEVICE_PATH_PROTOCOL               *DevicePath,
>>> +  OUT UINT8                                  *Slot
>>> +  )
>>> +{
>>> +  DW_MMC_HC_PRIVATE_DATA          *Private;
>>> +  SD_DEVICE_PATH                  *SdNode;
>>> +  EMMC_DEVICE_PATH                *EmmcNode;
>>> +  UINT8                           SlotNumber;
>>> +
>>> +  if ((This == NULL) || (DevicePath == NULL) || (Slot == NULL)) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  Private = DW_MMC_HC_PRIVATE_FROM_THIS (This);
>>> +
>>> +  //
>>> +  // Check whether the DevicePath belongs to SD_DEVICE_PATH or
>> EMMC_DEVICE_PATH
>>> +  //
>>> +  if ((DevicePath->Type != MESSAGING_DEVICE_PATH) ||
>>> +      ((DevicePath->SubType != MSG_SD_DP) &&
>>> +       (DevicePath->SubType != MSG_EMMC_DP)) ||
>>> +      (DevicePathNodeLength(DevicePath) != sizeof(SD_DEVICE_PATH)) ||
>>> +      (DevicePathNodeLength(DevicePath) !=
>> sizeof(EMMC_DEVICE_PATH))) {
>>> +    return EFI_UNSUPPORTED;
>>> +  }
>>> +
>>> +  if (DevicePath->SubType == MSG_SD_DP) {
>>> +    SdNode = (SD_DEVICE_PATH *) DevicePath;
>>> +    SlotNumber = SdNode->SlotNumber;
>>> +  } else {
>>> +    EmmcNode = (EMMC_DEVICE_PATH *) DevicePath;
>>> +    SlotNumber = EmmcNode->SlotNumber;
>>> +  }
>>> +
>>> +  if (SlotNumber >= DW_MMC_HC_MAX_SLOT) {
>>> +    return EFI_NOT_FOUND;
>>> +  }
>>> +
>>> +  if (Private->Slot[SlotNumber].Enable) {
>>> +    *Slot = SlotNumber;
>>> +    return EFI_SUCCESS;
>>> +  } else {
>>> +    return EFI_NOT_FOUND;
>>> +  }
>>> +}
>>> +
>>> +/**
>>> +  Resets an SD card that is connected to the SD controller.
>>> +
>>> +  The ResetDevice() function resets the SD card specified by Slot.
>>> +
>>> +  If this SD controller does not support a device reset operation,
>>> +  EFI_UNSUPPORTED is returned.
>>> +
>>> +  If Slot is not in a valid slot number for this SD controller,
>>> +  EFI_INVALID_PARAMETER is returned.
>>> +
>>> +  If the device reset operation is completed, EFI_SUCCESS is returned.
>>> +
>>> +  @param[in]  This              A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                                instance.
>>> +  @param[in]  Slot              Specifies the slot number of the SD card to be
>>> +                                reset.
>>> +
>>> +  @retval EFI_SUCCESS           The SD card specified by Slot was reset.
>>> +  @retval EFI_UNSUPPORTED       The SD controller does not support a
>> device
>>> +                                reset operation.
>>> +  @retval EFI_INVALID_PARAMETER Slot number is invalid.
>>> +  @retval EFI_NO_MEDIA          SD Device not present in the Slot.
>>> +  @retval EFI_DEVICE_ERROR      The reset command failed due to a device
>> error
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EFIAPI
>>> +DwMmcPassThruResetDevice (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL           *This,
>>> +  IN UINT8                                   Slot
>>> +  )
>>> +{
>>> +  DW_MMC_HC_PRIVATE_DATA          *Private;
>>> +  LIST_ENTRY                      *Link;
>>> +  LIST_ENTRY                      *NextLink;
>>> +  DW_MMC_HC_TRB                   *Trb;
>>> +  EFI_TPL                         OldTpl;
>>> +
>>> +  if (This == NULL) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  Private = DW_MMC_HC_PRIVATE_FROM_THIS (This);
>>> +
>>> +  if (!Private->Slot[Slot].Enable) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  if (!Private->Slot[Slot].MediaPresent) {
>>> +    return EFI_NO_MEDIA;
>>> +  }
>>> +
>>> +  //
>>> +  // Free all async I/O requests in the queue
>>> +  //
>>> +  OldTpl = gBS->RaiseTPL (TPL_NOTIFY);
>>> +
>>> +  for (Link = GetFirstNode (&Private->Queue);
>>> +       !IsNull (&Private->Queue, Link);
>>> +       Link = NextLink) {
>>> +    NextLink = GetNextNode (&Private->Queue, Link);
>>> +    RemoveEntryList (Link);
>>> +    Trb = DW_MMC_HC_TRB_FROM_THIS (Link);
>>> +    Trb->Packet->TransactionStatus = EFI_ABORTED;
>>> +    gBS->SignalEvent (Trb->Event);
>>> +    DwMmcFreeTrb (Trb);
>>> +  }
>>> +
>>> +  gBS->RestoreTPL (OldTpl);
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> diff --git a/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHci.c
>> b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHci.c
>>> new file mode 100644
>>> index 000000000000..b091f9803b2e
>>> --- /dev/null
>>> +++ b/EmbeddedPkg/Drivers/DwMmcHcDxe/DwMmcHci.c
>>> @@ -0,0 +1,1602 @@
>>> +/** @file
>>> +  This driver is used to manage Designware SD/MMC PCI host controllers.
>>> +
>>> +  It would expose EFI_SD_MMC_PASS_THRU_PROTOCOL for upper layer
>> use.
>>> +
>>> +  Copyright (c) 2015 - 2020, Intel Corporation. All rights reserved.<BR>
>>> +  Copyright (c) 2018, Linaro Ltd. All rights reserved.<BR>
>>> +
>>> +  This program and the accompanying materials are licensed and made
>> available
>>> +  under the terms and conditions of the BSD License which accompanies
>> this
>>> +  distribution.  The full text of the license may be found at
>>> +  http://opensource.org/licenses/bsd-license.php
>>> +
>>> +  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS"
>> BASIS,
>>> +  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER
>> EXPRESS OR IMPLIED.
>>> +
>>> +**/
>>> +
>>> +#include <IndustryStandard/Emmc.h>
>>> +#include <IndustryStandard/Sd.h>
>>> +
>>> +#include <Library/ArmLib.h>
>>> +#include <Library/BaseMemoryLib.h>
>>> +#include <Library/DmaLib.h>
>>> +#include <Library/IoLib.h>
>>> +#include <Library/DebugLib.h>
>>> +#include <Library/MemoryAllocationLib.h>
>>> +#include <Library/UefiBootServicesTableLib.h>
>>> +
>>> +#include "DwMmcHcDxe.h"
>>> +
>>> +/**
>>> +  Dump the content of SD/MMC host controller's Capability Register.
>>> +
>>> +  @param[in]  Slot            The slot number of the SD card to send the
>>> +                              command to.
>>> +  @param[in]  Capability      The buffer to store the capability data.
>>> +
>>> +**/
>>> +VOID
>>> +DumpCapabilityReg (
>>> +  IN UINT8                Slot,
>>> +  IN DW_MMC_HC_SLOT_CAP   *Capability
>>> +  )
>>> +{
>>> +  //
>>> +  // Dump Capability Data
>>> +  //
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    " == Slot [%d] Capability is 0x%x ==\n",
>>> +    Slot,
>>> +    Capability
>>> +    ));
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "   Base Clk Freq     %dKHz\n",
>>> +    Capability->BaseClkFreq
>>> +    ));
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "   BusWidth          %d\n",
>>> +    Capability->BusWidth
>>> +    ));
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "   HighSpeed Support %a\n",
>>> +    Capability->HighSpeed ? "TRUE" : "FALSE"
>>> +    ));
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "   Voltage 1.8       %a\n",
>>> +    Capability->Voltage18 ? "TRUE" : "FALSE"
>>> +    ));
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "   64-bit Sys Bus    %a\n",
>>> +    Capability->SysBus64 ? "TRUE" : "FALSE"
>>> +    ));
>>> +  DEBUG ((DEBUG_INFO, "   SlotType          "));
>>> +  if (Capability->SlotType == 0x00) {
>>> +    DEBUG ((DEBUG_INFO, "%a\n", "Removable Slot"));
>>> +  } else if (Capability->SlotType == 0x01) {
>>> +    DEBUG ((DEBUG_INFO, "%a\n", "Embedded Slot"));
>>> +  } else if (Capability->SlotType == 0x02) {
>>> +    DEBUG ((DEBUG_INFO, "%a\n", "Shared Bus Slot"));
>>> +  } else {
>>> +    DEBUG ((DEBUG_INFO, "%a\n", "Reserved"));
>>> +  }
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "   SDR50  Support    %a\n",
>>> +    Capability->Sdr50 ? "TRUE" : "FALSE"
>>> +    ));
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "   SDR104 Support    %a\n",
>>> +    Capability->Sdr104 ? "TRUE" : "FALSE"
>>> +    ));
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "   DDR50  Support    %a\n",
>>> +    Capability->Ddr50 ? "TRUE" : "FALSE"
>>> +    ));
>>> +  return;
>>> +}
>>> +
>>> +/**
>>> +  Set all interrupt status bits in Normal and Error Interrupt Status Enable
>>> +  register.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +
>>> +  @retval EFI_SUCCESS       The operation executes successfully.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcEnableInterrupt (
>>> +  UINTN                          DevBase
>>> +  )
>>> +{
>>> +  UINT32                    IntStatus;
>>> +  UINT32                    IdIntEn;
>>> +  UINT32                    IdSts;
>>> +
>>> +  //
>>> +  // Enable all bits in Interrupt Mask Register
>>> +  //
>>> +  IntStatus = 0;
>>> +  MmioWrite32 (DevBase + DW_MMC_INTMASK, IntStatus);
>>> +
>>> +  //
>>> +  // Clear status in Interrupt Status Register
>>> +  //
>>> +  IntStatus = ~0;
>>> +  MmioWrite32 (DevBase + DW_MMC_RINTSTS, IntStatus);
>>> +
>>> +  IdIntEn = ~0;
>>> +  MmioWrite32 (DevBase + DW_MMC_IDINTEN, IdIntEn);
>>> +
>>> +  IdSts = ~0;
>>> +  MmioWrite32 (DevBase + DW_MMC_IDSTS, IdSts);
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +EFI_STATUS
>>> +DwMmcHcGetCapability (
>>> +  IN     UINTN                   DevBase,
>>> +  IN     EFI_HANDLE              Controller,
>>> +  IN     UINT8                   Slot,
>>> +     OUT DW_MMC_HC_SLOT_CAP      *Capacity
>>> +  )
>>> +{
>>> +  PLATFORM_DW_MMC_PROTOCOL       *PlatformDwMmc;
>>> +  EFI_STATUS                     Status;
>>> +
>>> +  if (Capacity == NULL) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +  Status = gBS->LocateProtocol (
>>> +                  &gPlatformDwMmcProtocolGuid,
>>> +                  NULL,
>>> +                  (VOID **) &PlatformDwMmc
>>> +                  );
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +  Status = PlatformDwMmc->GetCapability (Controller, Slot, Capacity);
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Detect whether there is a SD/MMC card attached at the specified
>> SD/MMC host
>>> +  controller slot.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.1 for details.
>>> +
>>> +  @param[in]  DevIo         The DEVICE IO protocol instance.
>>> +  @param[in]  Slot          The slot number of the SD card to send the
>> command
>>> +                            to.
>>> +  @param[out] MediaPresent  The pointer to the media present boolean
>> value.
>>> +
>>> +  @retval EFI_SUCCESS       There is no media change happened.
>>> +  @retval EFI_MEDIA_CHANGED There is media change happened.
>>> +  @retval Others            The detection fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcCardDetect (
>>> +  IN     UINTN                  DevBase,
>>> +  IN     EFI_HANDLE             Controller,
>>> +  IN     UINT8                  Slot,
>>> +     OUT BOOLEAN                *MediaPresent
>>> +  )
>>> +{
>>> +  PLATFORM_DW_MMC_PROTOCOL  *PlatformDwMmc;
>>> +  EFI_STATUS                Status;
>>> +
>>> +  if (MediaPresent == NULL) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +  Status = gBS->LocateProtocol (
>>> +                  &gPlatformDwMmcProtocolGuid,
>>> +                  NULL,
>>> +                  (VOID **) &PlatformDwMmc
>>> +                  );
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +  *MediaPresent = PlatformDwMmc->CardDetect (Controller, Slot);
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +STATIC
>>> +EFI_STATUS
>>> +DwMmcHcUpdateClock (
>>> +  IN UINTN                  DevBase
>>> +  )
>>> +{
>>> +  UINT32                    Cmd;
>>> +  UINT32                    IntStatus;
>>> +
>>> +  Cmd = BIT_CMD_WAIT_PRVDATA_COMPLETE |
>> BIT_CMD_UPDATE_CLOCK_ONLY |
>>> +        BIT_CMD_START;
>>> +  MmioWrite32 (DevBase + DW_MMC_CMD, Cmd);
>>> +
>>> +  while (1) {
>>> +    Cmd = MmioRead32 (DevBase + DW_MMC_CMD);
>>> +
>>> +    if (!(Cmd & CMD_START_BIT)) {
>>> +      break;
>>> +    }
>>> +
>>> +    IntStatus = MmioRead32 (DevBase + DW_MMC_RINTSTS);
>>> +
>>> +    if (IntStatus & DW_MMC_INT_HLE) {
>>> +      DEBUG ((
>>> +        DEBUG_ERROR,
>>> +        "DwMmcHcUpdateClock: failed to update mmc clock frequency\n"
>>> +        ));
>>> +      return EFI_DEVICE_ERROR;
>>> +    }
>>> +  }
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Stop SD/MMC card clock.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +
>>> +  @retval EFI_SUCCESS       Succeed to stop SD/MMC clock.
>>> +  @retval Others            Fail to stop SD/MMC clock.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcStopClock (
>>> +  IN UINTN                  DevBase
>>> +  )
>>> +{
>>> +  EFI_STATUS                Status;
>>> +  UINT32                    ClkEna;
>>> +
>>> +  //
>>> +  // Disable MMC clock first
>>> +  //
>>> +  ClkEna = 0;
>>> +  MmioWrite32 (DevBase + DW_MMC_CLKENA, ClkEna);
>>> +
>>> +  Status = DwMmcHcUpdateClock (DevBase);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  SD/MMC card clock supply.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] ClockFreq      The max clock frequency to be set. The unit is
>> KHz.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The clock is supplied successfully.
>>> +  @retval Others            The clock isn't supplied successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcClockSupply (
>>> +  IN UINTN                  DevBase,
>>> +  IN UINT64                 ClockFreq,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  )
>>> +{
>>> +  EFI_STATUS                Status;
>>> +  UINT32                    BaseClkFreq;
>>> +  UINT32                    SettingFreq;
>>> +  UINT32                    Divisor;
>>> +  UINT32                    Remainder;
>>> +  UINT32                    MmcStatus;
>>> +  UINT32                    ClkEna;
>>> +  UINT32                    ClkSrc;
>>> +
>>> +  //
>>> +  // Calculate a divisor for SD clock frequency
>>> +  //
>>> +  ASSERT (Capability.BaseClkFreq != 0);
>>> +
>>> +  BaseClkFreq = Capability.BaseClkFreq;
>>> +  if (ClockFreq == 0) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  if (ClockFreq > BaseClkFreq) {
>>> +    ClockFreq = BaseClkFreq;
>>> +  }
>>> +
>>> +  //
>>> +  // Calculate the divisor of base frequency.
>>> +  //
>>> +  Divisor     = 0;
>>> +  SettingFreq = BaseClkFreq;
>>> +  while (ClockFreq < SettingFreq) {
>>> +    Divisor++;
>>> +
>>> +    SettingFreq = BaseClkFreq / (2 * Divisor);
>>> +    Remainder   = BaseClkFreq % (2 * Divisor);
>>> +    if ((ClockFreq == SettingFreq) && (Remainder == 0)) {
>>> +      break;
>>> +    }
>>> +    if ((ClockFreq == SettingFreq) && (Remainder != 0)) {
>>> +      SettingFreq ++;
>>> +    }
>>> +  }
>>> +
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "BaseClkFreq %dKHz Divisor %d ClockFreq %dKhz\n",
>>> +    BaseClkFreq,
>>> +    Divisor,
>>> +    ClockFreq
>>> +    ));
>>> +
>>> +  //
>>> +  // Wait until MMC is idle
>>> +  //
>>> +  do {
>>> +    MmcStatus = MmioRead32 (DevBase + DW_MMC_STATUS);
>>> +  } while (MmcStatus & DW_MMC_STS_DATA_BUSY);
>>> +
>>> +  do {
>>> +    Status = DwMmcHcStopClock (DevBase);
>>> +  } while (EFI_ERROR (Status));
>>> +
>>> +  do {
>>> +    ClkSrc = 0;
>>> +    MmioWrite32 (DevBase + DW_MMC_CLKSRC, ClkSrc);
>>> +    //
>>> +    // Set clock divisor
>>> +    //
>>> +    MmioWrite32 (DevBase + DW_MMC_CLKDIV, Divisor);
>>> +    //
>>> +    // Enable MMC clock
>>> +    //
>>> +    ClkEna = 1;
>>> +    MmioWrite32 (DevBase + DW_MMC_CLKENA, ClkEna);
>>> +
>>> +    Status = DwMmcHcUpdateClock (DevBase);
>>> +  } while (EFI_ERROR (Status));
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Set the SD/MMC bus width.
>>> +
>>> +  Refer to SD Host Controller Simplified spec 3.0 Section 3.4 for details.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] IsDdr          A boolean to indicate it's dual data rate or not.
>>> +  @param[in] BusWidth       The bus width used by the SD/MMC device, it
>> must be
>>> +                            1, 4 or 8.
>>> +
>>> +  @retval EFI_SUCCESS       The bus width is set successfully.
>>> +  @retval Others            The bus width isn't set successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcSetBusWidth (
>>> +  IN UINTN                  DevBase,
>>> +  IN BOOLEAN                IsDdr,
>>> +  IN UINT16                 BusWidth
>>> +  )
>>> +{
>>> +  UINT32                    Ctype;
>>> +  UINT32                    Uhs;
>>> +
>>> +  switch (BusWidth) {
>>> +  case 1:
>>> +    Ctype = MMC_1BIT_MODE;
>>> +    break;
>>> +  case 4:
>>> +    Ctype = MMC_4BIT_MODE;
>>> +    break;
>>> +  case 8:
>>> +    Ctype = MMC_8BIT_MODE;
>>> +    break;
>>> +  default:
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +  MmioWrite32 (DevBase + DW_MMC_CTYPE, Ctype);
>>> +
>>> +  Uhs = MmioRead32 (DevBase + DW_MMC_UHSREG);
>>> +
>>> +  if (IsDdr) {
>>> +    Uhs |= UHS_DDR_MODE;
>>> +  } else {
>>> +    Uhs &= ~(UHS_DDR_MODE);
>>> +  }
>>> +
>>> +  MmioWrite32 (DevBase + DW_MMC_UHSREG, Uhs);
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Supply SD/MMC card with lowest clock frequency at initialization.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The clock is supplied successfully.
>>> +  @retval Others            The clock isn't supplied successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitClockFreq (
>>> +  IN UINTN                     DevBase,
>>> +  IN DW_MMC_HC_SLOT_CAP        Capability
>>> +  )
>>> +{
>>> +  EFI_STATUS                Status;
>>> +  UINT32                    InitFreq;
>>> +
>>> +  //
>>> +  // Calculate a divisor for SD clock frequency
>>> +  //
>>> +  if (Capability.BaseClkFreq == 0) {
>>> +    //
>>> +    // Don't support get Base Clock Frequency information via another
>> method
>>> +    //
>>> +    return EFI_UNSUPPORTED;
>>> +  }
>>> +  //
>>> +  // Supply 400KHz clock frequency at initialization phase.
>>> +  //
>>> +  InitFreq = DWMMC_INIT_CLOCK_FREQ;
>>> +  Status = DwMmcHcClockSupply (DevBase, InitFreq, Capability);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +  MicroSecondDelay (100);
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Supply SD/MMC card with maximum voltage at initialization.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The voltage is supplied successfully.
>>> +  @retval Others            The voltage isn't supplied successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitPowerVoltage (
>>> +  IN UINTN DevBase,
>>> +  IN DW_MMC_HC_SLOT_CAP     Capability
>>> +  )
>>> +{
>>> +  UINT32                    Data;
>>> +  UINT32                    Timeout;
>>> +
>>> +  Data = 0x1;
>>> +  MmioWrite32 (DevBase + DW_MMC_PWREN, Data);
>>> +
>>> +  Data = DW_MMC_CTRL_RESET_ALL;
>>> +  MmioWrite32 (DevBase + DW_MMC_CTRL, Data);
>>> +
>>> +  Timeout = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +  while (Timeout > 0) {
>>> +    Data = MmioRead32 (DevBase + DW_MMC_CTRL);
>>> +
>>> +    if ((Data & DW_MMC_CTRL_RESET_ALL) == 0) {
>>> +      break;
>>> +    }
>>> +    gBS->Stall (1);
>>> +
>>> +    Timeout--;
>>> +  }
>>> +
>>> +  if (Timeout <= 0) {
>>> +    DEBUG ((DEBUG_INFO,
>>> +      "DwMmcHcInitPowerVoltage: reset failed due to timeout"));
>>> +
>>> +    return EFI_TIMEOUT;
>>> +  }
>>> +
>>> +  Data = DW_MMC_CTRL_INT_EN;
>>> +  MmioWrite32 (DevBase + DW_MMC_CTRL, Data);
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Initialize the Timeout Control register with most conservative value at
>>> +  initialization.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +
>>> +  @retval EFI_SUCCESS       The timeout control register is configured
>>> +                            successfully.
>>> +  @retval Others            The timeout control register isn't configured
>>> +                            successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitTimeoutCtrl (
>>> +  IN UINTN                  DevBase
>>> +  )
>>> +{
>>> +  UINT32                    Data;
>>> +
>>> +  Data = ~0;
>>> +  MmioWrite32 (DevBase + DW_MMC_TMOUT, Data);
>>> +
>>> +  Data = 0x00FFFFFF;
>>> +  MmioWrite32 (DevBase + DW_MMC_DEBNCE, Data);
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Initial SD/MMC host controller with lowest clock frequency, max power
>> and
>>> +  max timeout value at initialization.
>>> +
>>> +  @param[in] DevIo          The DEVICE IO protocol instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command
>>> +                            to.
>>> +  @param[in] Capability     The capability of the slot.
>>> +
>>> +  @retval EFI_SUCCESS       The host controller is initialized successfully.
>>> +  @retval Others            The host controller isn't initialized successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcHcInitHost (
>>> +  IN UINTN    DevBase,
>>> +  IN DW_MMC_HC_SLOT_CAP        Capability
>>> +  )
>>> +{
>>> +  EFI_STATUS       Status;
>>> +
>>> +  Status = DwMmcHcInitPowerVoltage (DevBase, Capability);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +  return Status;
>>> +}
>>> +
>>> +EFI_STATUS
>>> +DwMmcHcStartDma (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  )
>>> +{
>>> +  UINTN                               DevBase;
>>> +  UINT32                              Ctrl;
>>> +  UINT32                              Bmod;
>>> +  UINT32                              Timeout;
>>> +  UINT32                              Data;
>>> +
>>> +//  DevIo  = Trb->Private->DevIo;
>>> +  DevBase = Trb->Private->DevBase;
>>> +
>>> +  //
>>> +  // Reset DMA
>>> +  //
>>> +  Ctrl = DW_MMC_CTRL_DMA_RESET;
>>> +  MmioWrite32 (DevBase + DW_MMC_CTRL, Ctrl);
>>> +
>>> +  Timeout = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +  while (Timeout > 0) {
>>> +    Data = MmioRead32 (DevBase + DW_MMC_CTRL);
>>> +
>>> +    if ((Data & DW_MMC_CTRL_DMA_RESET) == 0) {
>>> +      break;
>>> +    }
>>> +    gBS->Stall (1);
>>> +
>>> +    Timeout--;
>>> +  }
>>> +
>>> +  if (Timeout <= 0) {
>>> +    DEBUG ((DEBUG_ERROR, "Timed out waiting for CTRL_DMA_RESET"));
>>> +
>>> +    return EFI_TIMEOUT;
>>> +  }
>>> +
>>> +  Bmod = DW_MMC_IDMAC_SWRESET | MmioRead32 (DevBase +
>> DW_MMC_BMOD);
>>> +
>>> +  MmioWrite32 (DevBase + DW_MMC_BMOD, Bmod);
>>> +
>>> +  //
>>> +  // Select IDMAC
>>> +  //
>>> +  Ctrl = DW_MMC_CTRL_IDMAC_EN;
>>> +  Ctrl |= MmioRead32 (DevBase + DW_MMC_CTRL);
>>> +  MmioWrite32 (DevBase + DW_MMC_CTRL, Ctrl);
>>> +
>>> +  //
>>> +  // Enable IDMAC
>>> +  //
>>> +  Bmod = DW_MMC_IDMAC_ENABLE | DW_MMC_IDMAC_FB;
>>> +  Bmod |= MmioRead32 (DevBase + DW_MMC_BMOD);
>>> +
>>> +  MmioWrite32 (DevBase + DW_MMC_BMOD, Bmod);
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +EFI_STATUS
>>> +DwMmcHcStopDma (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  )
>>> +{
>>> +  UINTN                               DevBase;
>>> +  UINT32                              Ctrl;
>>> +  UINT32                              Bmod;
>>> +
>>> +  DevBase = Trb->Private->DevBase;
>>> +
>>> +  //
>>> +  // Disable and reset IDMAC
>>> +  //
>>> +  Ctrl = MmioRead32 (DevBase + DW_MMC_CTRL);
>>> +  Ctrl &= ~DW_MMC_CTRL_IDMAC_EN;
>>> +  Ctrl |= DW_MMC_CTRL_DMA_RESET;
>>> +  MmioWrite32 (DevBase + DW_MMC_CTRL, Ctrl);
>>> +
>>> +  //
>>> +  // Stop IDMAC
>>> +  //
>>> +  Bmod = MmioRead32 (DevBase + DW_MMC_BMOD);
>>> +  Bmod &= ~(DW_MMC_BMOD_FB | DW_MMC_BMOD_DE);
>>> +  Bmod |= DW_MMC_BMOD_SWR;
>>> +  MmioWrite32 (DevBase + DW_MMC_BMOD, Bmod);
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Build DMA descriptor table for transfer.
>>> +
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The DMA descriptor table is created
>> successfully.
>>> +  @retval Others            The DMA descriptor table isn't created successfully.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +BuildDmaDescTable (
>>> +  IN DW_MMC_HC_TRB          *Trb
>>> +  )
>>> +{
>>> +  EFI_PHYSICAL_ADDRESS      Data;
>>> +  UINT64                    DataLen;
>>> +  UINT64                    Entries;
>>> +  UINT32                    Index;
>>> +  UINT64                    Remaining;
>>> +  UINTN                     TableSize;
>>> +  UINTN                     DevBase;
>>> +  EFI_STATUS                Status;
>>> +  UINTN                     Bytes;
>>> +  UINTN                     Blocks;
>>> +  DW_MMC_HC_DMA_DESC_LINE   *DmaDesc;
>>> +  UINT32                    DmaDescPhy;
>>> +  UINT32                    Idsts;
>>> +  UINT32                    BytCnt;
>>> +  UINT32                    BlkSize;
>>> +
>>> +  Data    = Trb->DataPhy;
>>> +  DataLen = Trb->DataLen;
>>> +  DevBase = Trb->Private->DevBase;
>>> +  //
>>> +  // Only support 32bit DMA Descriptor Table
>>> +  //
>>> +  if ((Data >= 0x100000000ul) || ((Data + DataLen) > 0x100000000ul)) {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +  //
>>> +  // Address field shall be set on 32-bit boundary (Lower 2-bit is always set
>>> +  // to 0) for 32-bit address descriptor table.
>>> +  //
>>> +  if ((Data & (BIT0 | BIT1)) != 0) {
>>> +    DEBUG ((
>>> +      DEBUG_INFO,
>>> +      "The buffer [0x%x] to construct DMA desc is not aligned to 4 bytes!\n",
>>> +      Data
>>> +      ));
>>> +  }
>>> +
>>> +  Entries   = (DataLen + DWMMC_DMA_BUF_SIZE - 1) /
>> DWMMC_DMA_BUF_SIZE;
>>> +  TableSize = Entries * sizeof (DW_MMC_HC_DMA_DESC_LINE);
>>> +  Blocks    = (DataLen + DW_MMC_BLOCK_SIZE - 1) /
>> DW_MMC_BLOCK_SIZE;
>>> +
>>> +  Trb->DmaDescPages = (UINT32)EFI_SIZE_TO_PAGES (Entries *
>> DWMMC_DMA_BUF_SIZE);
>>> +/*  Status = DevIo->AllocateBuffer (
>>> +                    DevIo,
>>> +                    AllocateAnyPages,
>>> +                    EfiBootServicesData,
>>> +                    EFI_SIZE_TO_PAGES (TableSize),
>>> +                    (EFI_PHYSICAL_ADDRESS *)&Trb->DmaDesc
>>> +                    );*/
>>> +  Status = DmaAllocateBuffer (EfiBootServicesData, EFI_SIZE_TO_PAGES
>> (TableSize),
>>> +             (VOID *)&Trb->DmaDesc);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return EFI_OUT_OF_RESOURCES;
>>> +  }
>>> +
>>> +  ZeroMem (Trb->DmaDesc, TableSize);
>>> +  Bytes  = TableSize;
>>> +
>>> +  Status = DmaMap (MapOperationBusMasterCommonBuffer,
>>> +             (EFI_PHYSICAL_ADDRESS *)Trb->DmaDesc,
>>> +             &Bytes, &Trb->DmaDescPhy, &Trb->DmaMap);
>>> +/*  Status = DevIo->Map (
>>> +                    DevIo,
>>> +                    EfiBusMasterCommonBuffer,
>>> +                    (EFI_PHYSICAL_ADDRESS *)Trb->DmaDesc,
>>> +                    &Bytes,
>>> +                    &Trb->DmaDescPhy,
>>> +                    &Trb->DmaMap
>>> +                    );*/
>>> +
>>> +  if (EFI_ERROR (Status) || (Bytes != TableSize)) {
>>> +    //
>>> +    // Map error or unable to map the whole RFis buffer into a contiguous
>>> +    // region.
>>> +    //
>>> +/*    DevIo->FreeBuffer (
>>> +             DevIo,
>>> +             EFI_SIZE_TO_PAGES (TableSize),
>>> +             (EFI_PHYSICAL_ADDRESS)Trb->DmaDesc
>>> +             );*/
>>> +    return EFI_OUT_OF_RESOURCES;
>>> +  }
>>> +
>>> +  if ((UINT64)(UINTN)Trb->DmaDescPhy > 0x100000000ul) {
>>> +    //
>>> +    // The DMA doesn't support 64bit addressing.
>>> +    //
>>> +    DmaUnmap (Trb->DmaMap);
>>> +/*    DevIo->Unmap (
>>> +      DevIo,
>>> +      Trb->DmaMap
>>> +    );*/
>>> +    return EFI_DEVICE_ERROR;
>>> +  }
>>> +
>>> +  if (DataLen < DW_MMC_BLOCK_SIZE) {
>>> +    BlkSize = DataLen;
>>> +    BytCnt = DataLen;
>>> +    Remaining = DataLen;
>>> +  } else {
>>> +    BlkSize = DW_MMC_BLOCK_SIZE;
>>> +    BytCnt = DW_MMC_BLOCK_SIZE * Blocks;
>>> +    Remaining = DW_MMC_BLOCK_SIZE * Blocks;
>>> +  }
>>> +
>>> +  MmioWrite32 (DevBase + DW_MMC_BLKSIZ, BlkSize);
>>> +  MmioWrite32 (DevBase + DW_MMC_BYTCNT, BytCnt);
>>> +  DmaDesc = Trb->DmaDesc;
>>> +  for (Index = 0; Index < Entries; Index++, DmaDesc++) {
>>> +    DmaDesc->Des0 = DW_MMC_IDMAC_DES0_OWN |
>> DW_MMC_IDMAC_DES0_CH |
>>> +                    DW_MMC_IDMAC_DES0_DIC;
>>> +    DmaDesc->Des1 = DW_MMC_IDMAC_DES1_BS1
>> (DWMMC_DMA_BUF_SIZE);
>>> +    //
>>> +    // Buffer Address
>>> +    //
>>> +    DmaDesc->Des2 = (UINT32)((UINTN)Trb->DataPhy +
>>> +                    (DWMMC_DMA_BUF_SIZE * Index));
>>> +    //
>>> +    // Next Descriptor Address
>>> +    //
>>> +    DmaDesc->Des3 = (UINT32)((UINTN)Trb->DmaDescPhy +
>>> +                    sizeof (DW_MMC_HC_DMA_DESC_LINE) * (Index + 1));
>>> +    Remaining = Remaining - DWMMC_DMA_BUF_SIZE;
>>> +  }
>>> +  //
>>> +  // First Descriptor
>>> +  //
>>> +  Trb->DmaDesc[0].Des0 |= DW_MMC_IDMAC_DES0_FS;
>>> +  //
>>> +  // Last Descriptor
>>> +  //
>>> +  Trb->DmaDesc[Entries - 1].Des0 &= ~(DW_MMC_IDMAC_DES0_CH |
>>> +                                    DW_MMC_IDMAC_DES0_DIC);
>>> +  Trb->DmaDesc[Entries - 1].Des0 |= DW_MMC_IDMAC_DES0_OWN |
>>> +                                    DW_MMC_IDMAC_DES0_LD;
>>> +  Trb->DmaDesc[Entries - 1].Des1 = DW_MMC_IDMAC_DES1_BS1
>> (Remaining +
>>> +                                   DWMMC_DMA_BUF_SIZE);
>>> +  //
>>> +  // Set the next field of the Last Descriptor
>>> +  //
>>> +  Trb->DmaDesc[Entries - 1].Des3 = 0;
>>> +  DmaDescPhy = (UINT32)Trb->DmaDescPhy;
>>> +
>>> +  MmioWrite32 (DevBase + DW_MMC_DBADDR, DmaDescPhy);
>>> +
>>> +  ArmDataSynchronizationBarrier ();
>>> +  ArmInstructionSynchronizationBarrier ();
>>> +  //
>>> +  // Clear interrupts
>>> +  //
>>> +  Idsts = ~0;
>>> +  MmioWrite32 (DevBase + DW_MMC_IDSTS, Idsts);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +EFI_STATUS
>>> +TransferFifo (
>>> +  IN DW_MMC_HC_TRB          *Trb
>>> +  )
>>> +{
>>> +  UINTN                     DevBase;
>>> +  UINT32                    Data;
>>> +  UINT32                    Received;
>>> +  UINT32                    Count;
>>> +  UINT32                    Intsts;
>>> +  UINT32                    Sts;
>>> +  UINT32                    FifoCount;
>>> +  UINT32                    Index;     /* count with bytes */
>>> +  UINT32                    Ascending;
>>> +  UINT32                    Descending;
>>> +
>>> +  DevBase   = Trb->Private->DevBase;
>>> +  Received = 0;
>>> +  Count = 0;
>>> +  Index = 0;
>>> +  Ascending = 0;
>>> +  Descending = ((Trb->DataLen + 3) & ~3) - 4;
>>> +  do {
>>> +    Intsts = MmioRead32 (DevBase + DW_MMC_RINTSTS);
>>> +
>>> +    if (Trb->DataLen && (Intsts & DW_MMC_INT_TXDR) && !Trb->Read) {
>>> +      Sts = MmioRead32 (DevBase + DW_MMC_STATUS);
>>> +
>>> +      while (!(DW_MMC_STS_FIFO_FULL(Sts))
>>> +              && (Received < Trb->DataLen)
>>> +              && (Intsts & DW_MMC_INT_TXDR)) {
>>> +        if (Trb->UseBE) {
>>> +          Data = SwapBytes32 (*(UINT32 *)((UINTN)Trb->Data + Descending));
>>> +          Descending = Descending - 4;
>>> +        } else {
>>> +          Data = *(UINT32 *)((UINTN)Trb->Data + Ascending);
>>> +          Ascending += 4;
>>> +        }
>>> +        Index += 4;
>>> +        Received += 4;
>>> +
>>> +        MmioWrite32 (DevBase + DW_MMC_FIFO_START, Data);
>>> +
>>> +        Intsts = DW_MMC_INT_TXDR;
>>> +        MmioWrite32 (DevBase + DW_MMC_RINTSTS, Intsts);
>>> +
>>> +        Intsts = MmioRead32 (DevBase + DW_MMC_RINTSTS);
>>> +        Sts = MmioRead32 (DevBase + DW_MMC_STATUS);
>>> +        }
>>> +      continue;
>>> +    }
>>> +
>>> +    if (Trb->DataLen && ((Intsts & DW_MMC_INT_RXDR) ||
>>> +       (Intsts & DW_MMC_INT_DTO)) && Trb->Read) {
>>> +      Sts = MmioRead32 (DevBase + DW_MMC_STATUS);
>>> +      //
>>> +      // Convert to bytes
>>> +      //
>>> +      FifoCount = GET_STS_FIFO_COUNT (Sts) << 2;
>>> +      if ((FifoCount == 0) && (Received < Trb->DataLen)) {
>>> +        continue;
>>> +      }
>>> +      Index = 0;
>>> +      Count = (MIN (FifoCount, Trb->DataLen) + 3) & ~3;
>>> +      while (Index < Count) {
>>> +        Data = MmioRead32 (DevBase + DW_MMC_FIFO_START);
>>> +
>>> +        if (Trb->UseBE) {
>>> +          *(UINT32 *)((UINTN)Trb->Data + Descending) = SwapBytes32 (Data);
>>> +          Descending = Descending - 4;
>>> +        } else {
>>> +          *(UINT32 *)((UINTN)Trb->Data + Ascending) = Data;
>>> +          Ascending += 4;
>>> +        }
>>> +        Index += 4;
>>> +        Received += 4;
>>> +      } /* while */
>>> +    } /* if */
>>> +  } while (((Intsts & DW_MMC_INT_CMD_DONE) == 0) || (Received < Trb-
>>> DataLen));
>>> +  //
>>> +  // Clear RINTSTS
>>> +  //
>>> +  Intsts = ~0;
>>> +  MmioWrite32 (DevBase + DW_MMC_RINTSTS, Intsts);
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Create a new TRB for the SD/MMC cmd request.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command
>>> +                            to.
>>> +  @param[in] Packet         A pointer to the SD command data structure.
>>> +  @param[in] Event          If Event is NULL, blocking I/O is performed. If
>>> +                            Event is not NULL, then nonblocking I/O is
>>> +                            performed, and Event will be signaled when the
>>> +                            Packet completes.
>>> +
>>> +  @return Created Trb or NULL.
>>> +
>>> +**/
>>> +DW_MMC_HC_TRB *
>>> +DwMmcCreateTrb (
>>> +  IN DW_MMC_HC_PRIVATE_DATA              *Private,
>>> +  IN UINT8                               Slot,
>>> +  IN EFI_SD_MMC_PASS_THRU_COMMAND_PACKET *Packet,
>>> +  IN EFI_EVENT                           Event
>>> +  )
>>> +{
>>> +  DW_MMC_HC_TRB                 *Trb;
>>> +  EFI_STATUS                    Status;
>>> +  EFI_TPL                       OldTpl;
>>> +  EFI_IO_OPERATION_TYPE         Flag;
>>> +  UINTN                         MapLength;
>>> +
>>> +  Trb = AllocateZeroPool (sizeof (DW_MMC_HC_TRB));
>>> +  if (Trb == NULL) {
>>> +    return NULL;
>>> +  }
>>> +
>>> +  Trb->Signature = DW_MMC_HC_TRB_SIG;
>>> +  Trb->Slot      = Slot;
>>> +  Trb->BlockSize = 0x200;
>>> +  Trb->Packet    = Packet;
>>> +  Trb->Event     = Event;
>>> +  Trb->Started   = FALSE;
>>> +  Trb->Timeout   = Packet->Timeout;
>>> +  Trb->Private   = Private;
>>> +
>>> +  if ((Packet->InTransferLength != 0) && (Packet->InDataBuffer != NULL)) {
>>> +    Trb->Data    = Packet->InDataBuffer;
>>> +    Trb->DataLen = Packet->InTransferLength;
>>> +    Trb->Read    = TRUE;
>>> +    ZeroMem (Trb->Data, Trb->DataLen);
>>> +  } else if (Packet->OutTransferLength && (Packet->OutDataBuffer !=
>> NULL)) {
>>> +    Trb->Data    = Packet->OutDataBuffer;
>>> +    Trb->DataLen = Packet->OutTransferLength;
>>> +    Trb->Read    = FALSE;
>>> +  } else if (!Packet->InTransferLength && !Packet->OutTransferLength) {
>>> +    Trb->Data    = NULL;
>>> +    Trb->DataLen = 0;
>>> +  } else {
>>> +    goto Error;
>>> +  }
>>> +
>>> +  if (((Private->Slot[Trb->Slot].CardType == EmmcCardType) &&
>>> +       (Packet->SdMmcCmdBlk->CommandIndex ==
>> EMMC_SEND_TUNING_BLOCK)) ||
>>> +      ((Private->Slot[Trb->Slot].CardType == SdCardType) &&
>>> +       (Packet->SdMmcCmdBlk->CommandIndex ==
>> SD_SEND_TUNING_BLOCK))) {
>>> +    Trb->Mode = SdMmcPioMode;
>>> +  } else {
>>> +    if (Trb->Read) {
>>> +      Flag = EfiBusMasterWrite;
>>> +    } else {
>>> +      Flag = EfiBusMasterRead;
>>> +    }
>>> +
>>> +    if (Private->Slot[Trb->Slot].CardType == SdCardType) {
>>> +      Trb->UseFifo = TRUE;
>>> +    } else {
>>> +      Trb->UseFifo = FALSE;
>>> +      if (Trb->DataLen) {
>>> +        MapLength = Trb->DataLen;
>>> +        Status = DmaMap (Flag, Trb->Data, &MapLength, &Trb->DataPhy,
>> &Trb->DataMap);
>>> +/*        Status = DevIo->Map (
>>> +                          DevIo,
>>> +                          Flag,
>>> +                          Trb->Data,
>>> +                          &MapLength,
>>> +                          &Trb->DataPhy,
>>> +                          &Trb->DataMap
>>> +                          );*/
>>> +        if (EFI_ERROR (Status) || (Trb->DataLen != MapLength)) {
>>> +          Status = EFI_BAD_BUFFER_SIZE;
>>> +          goto Error;
>>> +        }
>>> +
>>> +        Status = BuildDmaDescTable (Trb);
>>> +        if (EFI_ERROR (Status)) {
>>> +          DmaUnmap(Trb->DataMap);
>>> +          goto Error;
>>> +        }
>>> +        Status = DwMmcHcStartDma (Private, Trb);
>>> +        if (EFI_ERROR (Status)) {
>>> +          DmaUnmap(Trb->DataMap);
>>> +          goto Error;
>>> +        }
>>> +      }
>>> +    }
>>> +  } /* TuningBlock */
>>> +
>>> +  if (Event != NULL) {
>>> +    OldTpl = gBS->RaiseTPL (TPL_NOTIFY);
>>> +    InsertTailList (&Private->Queue, &Trb->TrbList);
>>> +    gBS->RestoreTPL (OldTpl);
>>> +  }
>>> +
>>> +  return Trb;
>>> +
>>> +Error:
>>> +  return NULL;
>>> +}
>>> +
>>> +/**
>>> +  Free the resource used by the TRB.
>>> +
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +**/
>>> +VOID
>>> +DwMmcFreeTrb (
>>> +  IN DW_MMC_HC_TRB           *Trb
>>> +  )
>>> +{
>>> +  if (Trb->DmaMap != NULL) {
>>> +    DmaUnmap (Trb->DmaMap);
>>> +  }
>>> +  if (Trb->DataMap != NULL) {
>>> +    DmaUnmap (Trb->DataMap);
>>> +  }
>>> +  FreePool (Trb);
>>> +}
>>> +
>>> +/**
>>> +  Check if the env is ready for execute specified TRB.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The env is ready for TRB execution.
>>> +  @retval EFI_NOT_READY     The env is not ready for TRB execution.
>>> +  @retval Others            Some erros happen.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcCheckTrbEnv (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  )
>>> +{
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Wait for the env to be ready for execute specified TRB.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The env is ready for TRB execution.
>>> +  @retval EFI_TIMEOUT       The env is not ready for TRB execution in time.
>>> +  @retval Others            Some erros happen.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcWaitTrbEnv (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  )
>>> +{
>>> +  EFI_STATUS                          Status;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET *Packet;
>>> +  UINT64                              Timeout;
>>> +  BOOLEAN                             InfiniteWait;
>>> +
>>> +  //
>>> +  // Wait Command Complete Interrupt Status bit in Normal Interrupt
>> Status
>>> +  // Register
>>> +  //
>>> +  Packet  = Trb->Packet;
>>> +  Timeout = Packet->Timeout;
>>> +  if (Timeout == 0) {
>>> +    InfiniteWait = TRUE;
>>> +  } else {
>>> +    InfiniteWait = FALSE;
>>> +  }
>>> +
>>> +  while (InfiniteWait || (Timeout > 0)) {
>>> +    //
>>> +    // Check Trb execution result by reading Normal Interrupt Status
>> register.
>>> +    //
>>> +    Status = DwMmcCheckTrbEnv (Private, Trb);
>>> +    if (Status != EFI_NOT_READY) {
>>> +      return Status;
>>> +    }
>>> +    //
>>> +    // Stall for 1 microsecond.
>>> +    //
>>> +    gBS->Stall (1);
>>> +
>>> +    Timeout--;
>>> +  }
>>> +
>>> +  return EFI_TIMEOUT;
>>> +}
>>> +
>>> +EFI_STATUS
>>> +DwEmmcExecTrb (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET *Packet;
>>> +  UINTN                               DevBase;
>>> +  UINT32                              Cmd;
>>> +  UINT32                              MmcStatus;
>>> +  UINT32                              IntStatus;
>>> +  UINT32                              Argument;
>>> +  UINT32                              ErrMask;
>>> +  UINT32                              Timeout;
>>> +
>>> +  Packet = Trb->Packet;
>>> +  DevBase = Trb->Private->DevBase;
>>> +
>>> +  ArmDataSynchronizationBarrier ();
>>> +  ArmInstructionSynchronizationBarrier ();
>>> +  //
>>> +  // Wait until MMC is idle
>>> +  //
>>> +  do {
>>> +    MmcStatus = MmioRead32 (DevBase + DW_MMC_STATUS);
>>> +  } while (MmcStatus & DW_MMC_STS_DATA_BUSY);
>>> +
>>> +  IntStatus = ~0;
>>> +  MmioWrite32 (DevBase + DW_MMC_RINTSTS, IntStatus);
>>> +  Cmd = CMD_INDEX (Packet->SdMmcCmdBlk->CommandIndex);
>>> +  if ((Packet->SdMmcCmdBlk->CommandType ==
>> SdMmcCommandTypeAc) ||
>>> +      (Packet->SdMmcCmdBlk->CommandType ==
>> SdMmcCommandTypeAdtc)) {
>>> +    switch (Packet->SdMmcCmdBlk->CommandIndex) {
>>> +    case EMMC_SET_RELATIVE_ADDR:
>>> +      Cmd |= BIT_CMD_SEND_INIT;
>>> +      break;
>>> +    case EMMC_SEND_STATUS:
>>> +      Cmd |= BIT_CMD_WAIT_PRVDATA_COMPLETE;
>>> +      break;
>>> +    case EMMC_STOP_TRANSMISSION:
>>> +      Cmd |= BIT_CMD_STOP_ABORT_CMD;
>>> +      break;
>>> +    }
>>> +    if (Packet->InTransferLength) {
>>> +      Cmd |= BIT_CMD_WAIT_PRVDATA_COMPLETE |
>> BIT_CMD_DATA_EXPECTED |
>>> +             BIT_CMD_READ;
>>> +    } else if (Packet->OutTransferLength) {
>>> +      Cmd |= BIT_CMD_WAIT_PRVDATA_COMPLETE |
>> BIT_CMD_DATA_EXPECTED |
>>> +             BIT_CMD_WRITE;
>>> +    }
>>> +    Cmd |= BIT_CMD_RESPONSE_EXPECT |
>> BIT_CMD_CHECK_RESPONSE_CRC;
>>> +  } else {
>>> +    switch (Packet->SdMmcCmdBlk->CommandIndex) {
>>> +    case EMMC_GO_IDLE_STATE:
>>> +      Cmd |= BIT_CMD_SEND_INIT;
>>> +      break;
>>> +    case EMMC_SEND_OP_COND:
>>> +      Cmd |= BIT_CMD_RESPONSE_EXPECT;
>>> +      break;
>>> +    case EMMC_ALL_SEND_CID:
>>> +      Cmd |= BIT_CMD_RESPONSE_EXPECT | BIT_CMD_LONG_RESPONSE |
>>> +             BIT_CMD_CHECK_RESPONSE_CRC | BIT_CMD_SEND_INIT;
>>> +      break;
>>> +    }
>>> +  }
>>> +  switch (Packet->SdMmcCmdBlk->ResponseType) {
>>> +  case SdMmcResponseTypeR2:
>>> +    Cmd |= BIT_CMD_RESPONSE_EXPECT |
>> BIT_CMD_CHECK_RESPONSE_CRC |
>>> +           BIT_CMD_LONG_RESPONSE;
>>> +    break;
>>> +  case SdMmcResponseTypeR3:
>>> +    Cmd |= BIT_CMD_RESPONSE_EXPECT;
>>> +    break;
>>> +  }
>>> +  Cmd |= BIT_CMD_USE_HOLD_REG | BIT_CMD_START;
>>> +
>>> +  Argument = Packet->SdMmcCmdBlk->CommandArgument;
>>> +  MmioWrite32 (DevBase + DW_MMC_CMDARG, Argument);
>>> +
>>> +  ArmDataSynchronizationBarrier ();
>>> +  ArmInstructionSynchronizationBarrier ();
>>> +
>>> +  MmioWrite32 (DevBase + DW_MMC_CMD, Cmd);
>>> +  ArmDataSynchronizationBarrier ();
>>> +  ArmInstructionSynchronizationBarrier ();
>>> +
>>> +  ErrMask = DW_MMC_INT_EBE | DW_MMC_INT_HLE |
>> DW_MMC_INT_RTO |
>>> +            DW_MMC_INT_RCRC | DW_MMC_INT_RE;
>>> +  ErrMask |= DW_MMC_INT_DCRC | DW_MMC_INT_DRT |
>> DW_MMC_INT_SBE;
>>> +  do {
>>> +    Timeout = 10000;
>>> +    if (--Timeout == 0) {
>>> +      break;
>>> +    }
>>> +    IntStatus = MmioRead32 (DevBase + DW_MMC_RINTSTS);
>>> +    if (IntStatus & ErrMask) {
>>> +      return EFI_DEVICE_ERROR;
>>> +    }
>>> +    if (Trb->DataLen && ((IntStatus & DW_MMC_INT_DTO) == 0)) {
>>> +      //
>>> +      // Transfer Not Done
>>> +      //
>>> +      MicroSecondDelay (10);
>>> +      continue;
>>> +    }
>>> +    MicroSecondDelay (10);
>>> +  } while (!(IntStatus & DW_MMC_INT_CMD_DONE));
>>> +  switch (Packet->SdMmcCmdBlk->ResponseType) {
>>> +    case SdMmcResponseTypeR1:
>>> +    case SdMmcResponseTypeR1b:
>>> +    case SdMmcResponseTypeR3:
>>> +    case SdMmcResponseTypeR4:
>>> +    case SdMmcResponseTypeR5:
>>> +      Packet->SdMmcStatusBlk->Resp0 = MmioRead32 (DevBase +
>> DW_MMC_RESP0);
>>> +      break;
>>> +    case SdMmcResponseTypeR2:
>>> +      Packet->SdMmcStatusBlk->Resp0 = MmioRead32 (DevBase +
>> DW_MMC_RESP0);
>>> +      Packet->SdMmcStatusBlk->Resp1 = MmioRead32 (DevBase +
>> DW_MMC_RESP1);
>>> +      Packet->SdMmcStatusBlk->Resp2 = MmioRead32 (DevBase +
>> DW_MMC_RESP2);
>>> +      Packet->SdMmcStatusBlk->Resp3 = MmioRead32 (DevBase +
>> DW_MMC_RESP3);
>>> +      break;
>>> +  }
>>> +
>>> +  //
>>> +  // The workaround on EMMC_SEND_CSD is used to be compatible with
>> SDHC.
>>> +  //
>>> +  if (Packet->SdMmcCmdBlk->CommandIndex == EMMC_SEND_CSD) {
>>> +    {
>>> +      UINT32   Buf[4];
>>> +      ZeroMem (Buf, sizeof (Buf));
>>> +      CopyMem (
>>> +        (UINT8 *)Buf,
>>> +        (UINT8 *)&Packet->SdMmcStatusBlk->Resp0 + 1,
>>> +        sizeof (Buf) - 1
>>> +        );
>>> +      CopyMem (
>>> +        (UINT8 *)&Packet->SdMmcStatusBlk->Resp0,
>>> +        (UINT8 *)Buf,
>>> +        sizeof (Buf) - 1
>>> +        );
>>> +    }
>>> +  }
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +EFI_STATUS
>>> +DwSdExecTrb (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET *Packet;
>>> +  UINTN                               DevBase;
>>> +  UINT32                              Cmd;
>>> +  UINT32                              MmcStatus;
>>> +  UINT32                              IntStatus;
>>> +  UINT32                              Argument;
>>> +  UINT32                              ErrMask;
>>> +  UINT32                              Timeout;
>>> +  UINT32                              Idsts;
>>> +  UINT32                              BytCnt;
>>> +  UINT32                              BlkSize;
>>> +  EFI_STATUS                          Status;
>>> +
>>> +  Packet = Trb->Packet;
>>> +  DevBase  = Trb->Private->DevBase;
>>> +
>>> +  ArmDataSynchronizationBarrier ();
>>> +  ArmInstructionSynchronizationBarrier ();
>>> +  //
>>> +  // Wait until MMC is idle
>>> +  //
>>> +  do {
>>> +    MmcStatus = MmioRead32 (DevBase + DW_MMC_STATUS);
>>> +  } while (MmcStatus & DW_MMC_STS_DATA_BUSY);
>>> +
>>> +  IntStatus = ~0;
>>> +  MmioWrite32 (DevBase + DW_MMC_RINTSTS, IntStatus);
>>> +  Cmd = CMD_INDEX (Packet->SdMmcCmdBlk->CommandIndex);
>>> +  if ((Packet->SdMmcCmdBlk->CommandType ==
>> SdMmcCommandTypeAc) ||
>>> +      (Packet->SdMmcCmdBlk->CommandType ==
>> SdMmcCommandTypeAdtc)) {
>>> +    switch (Packet->SdMmcCmdBlk->CommandIndex) {
>>> +    case SD_SET_RELATIVE_ADDR:
>>> +      Cmd |= BIT_CMD_SEND_INIT;
>>> +      break;
>>> +    case SD_STOP_TRANSMISSION:
>>> +      Cmd |= BIT_CMD_STOP_ABORT_CMD;
>>> +      break;
>>> +    case SD_SEND_SCR:
>>> +      Trb->UseBE = TRUE;
>>> +      break;
>>> +    }
>>> +    if (Packet->InTransferLength) {
>>> +      Cmd |= BIT_CMD_WAIT_PRVDATA_COMPLETE |
>> BIT_CMD_DATA_EXPECTED |
>>> +             BIT_CMD_READ;
>>> +    } else if (Packet->OutTransferLength) {
>>> +      Cmd |= BIT_CMD_WAIT_PRVDATA_COMPLETE |
>> BIT_CMD_DATA_EXPECTED |
>>> +             BIT_CMD_WRITE;
>>> +    }
>>> +    Cmd |= BIT_CMD_RESPONSE_EXPECT |
>> BIT_CMD_CHECK_RESPONSE_CRC |
>>> +           BIT_CMD_SEND_AUTO_STOP;
>>> +  } else {
>>> +    switch (Packet->SdMmcCmdBlk->CommandIndex) {
>>> +    case SD_GO_IDLE_STATE:
>>> +      Cmd |= BIT_CMD_SEND_INIT;
>>> +      break;
>>> +    }
>>> +  }
>>> +  switch (Packet->SdMmcCmdBlk->ResponseType) {
>>> +  case SdMmcResponseTypeR2:
>>> +    Cmd |= BIT_CMD_RESPONSE_EXPECT |
>> BIT_CMD_CHECK_RESPONSE_CRC |
>>> +           BIT_CMD_LONG_RESPONSE;
>>> +    break;
>>> +  case SdMmcResponseTypeR3:
>>> +    Cmd |= BIT_CMD_RESPONSE_EXPECT;
>>> +    break;
>>> +  case SdMmcResponseTypeR1b:
>>> +  case SdMmcResponseTypeR4:
>>> +  case SdMmcResponseTypeR6:
>>> +  case SdMmcResponseTypeR7:
>>> +    Cmd |= BIT_CMD_RESPONSE_EXPECT |
>> BIT_CMD_CHECK_RESPONSE_CRC;
>>> +    break;
>>> +  }
>>> +  Cmd |= BIT_CMD_USE_HOLD_REG | BIT_CMD_START;
>>> +
>>> +  if (Trb->UseFifo == TRUE) {
>>> +    BytCnt = Trb->Read ? Packet->InTransferLength : Packet-
>>> OutTransferLength;
>>> +    MmioWrite32 (DevBase + DW_MMC_BYTCNT, BytCnt);
>>> +    if (Trb->Read) {
>>> +      if (Packet->InTransferLength > DW_MMC_BLOCK_SIZE) {
>>> +        BlkSize = DW_MMC_BLOCK_SIZE;
>>> +      } else {
>>> +        BlkSize = Packet->InTransferLength;
>>> +      }
>>> +    }
>>> +    else {
>>> +      if (Packet->OutTransferLength > DW_MMC_BLOCK_SIZE) {
>>> +        BlkSize = DW_MMC_BLOCK_SIZE;
>>> +      } else {
>>> +        BlkSize = Packet->OutTransferLength;
>>> +      }
>>> +    }
>>> +
>>> +    MmioWrite32 (DevBase + DW_MMC_BLKSIZ, BlkSize);
>>> +  }
>>> +
>>> +  Argument = Packet->SdMmcCmdBlk->CommandArgument;
>>> +  MmioWrite32 (DevBase + DW_MMC_CMDARG, Argument);
>>> +  ArmDataSynchronizationBarrier ();
>>> +  ArmInstructionSynchronizationBarrier ();
>>> +  MmioWrite32 (DevBase + DW_MMC_CMD, Cmd);
>>> +  ArmDataSynchronizationBarrier ();
>>> +  ArmInstructionSynchronizationBarrier ();
>>> +
>>> +  ErrMask = DW_MMC_INT_EBE | DW_MMC_INT_HLE |
>> DW_MMC_INT_RTO |
>>> +            DW_MMC_INT_RCRC | DW_MMC_INT_RE;
>>> +  ErrMask |= DW_MMC_INT_DRT | DW_MMC_INT_SBE;
>>> +  if (Packet->InTransferLength || Packet->OutTransferLength) {
>>> +    ErrMask |= DW_MMC_INT_DCRC;
>>> +  }
>>> +  if (Trb->UseFifo == TRUE) {
>>> +    Status = TransferFifo (Trb);
>>> +    if (EFI_ERROR (Status)) {
>>> +      return Status;
>>> +    }
>>> +  } else {
>>> +    Timeout = 10000;
>>> +    do {
>>> +      if (--Timeout == 0) {
>>> +        break;
>>> +      }
>>> +      IntStatus = MmioRead32 (DevBase + DW_MMC_RINTSTS);
>>> +      if (IntStatus & ErrMask) {
>>> +        return EFI_DEVICE_ERROR;
>>> +      }
>>> +      if (Trb->DataLen && ((IntStatus & DW_MMC_INT_DTO) == 0)) {
>>> +        //
>>> +        // Transfer not Done
>>> +        //
>>> +        MicroSecondDelay (10);
>>> +        continue;
>>> +      }
>>> +      MicroSecondDelay (10);
>>> +    } while (!(IntStatus & DW_MMC_INT_CMD_DONE));
>>> +    if (Packet->InTransferLength) {
>>> +      do {
>>> +        Idsts = MmioRead32 (DevBase + DW_MMC_IDSTS);
>>> +      } while ((Idsts & DW_MMC_IDSTS_RI) == 0);
>>> +      Status = DwMmcHcStopDma (Private, Trb);
>>> +      if (EFI_ERROR (Status)) {
>>> +        return Status;
>>> +      }
>>> +    } else if (Packet->OutTransferLength) {
>>> +      do {
>>> +        Idsts = MmioRead32 (DevBase + DW_MMC_IDSTS);
>>> +      } while ((Idsts & DW_MMC_IDSTS_TI) == 0);
>>> +      Status = DwMmcHcStopDma (Private, Trb);
>>> +      if (EFI_ERROR (Status)) {
>>> +        return Status;
>>> +      }
>>> +    } /* Packet->InTransferLength */
>>> +  } /* UseFifo */
>>> +  switch (Packet->SdMmcCmdBlk->ResponseType) {
>>> +    case SdMmcResponseTypeR1:
>>> +    case SdMmcResponseTypeR1b:
>>> +    case SdMmcResponseTypeR3:
>>> +    case SdMmcResponseTypeR4:
>>> +    case SdMmcResponseTypeR5:
>>> +    case SdMmcResponseTypeR6:
>>> +    case SdMmcResponseTypeR7:
>>> +      Packet->SdMmcStatusBlk->Resp0 = MmioRead32 (DevBase +
>> DW_MMC_RESP0);
>>> +      break;
>>> +    case SdMmcResponseTypeR2:
>>> +      Packet->SdMmcStatusBlk->Resp0 = MmioRead32 (DevBase +
>> DW_MMC_RESP0);
>>> +      Packet->SdMmcStatusBlk->Resp1 = MmioRead32 (DevBase +
>> DW_MMC_RESP1);
>>> +      Packet->SdMmcStatusBlk->Resp2 = MmioRead32 (DevBase +
>> DW_MMC_RESP2);
>>> +      Packet->SdMmcStatusBlk->Resp3 = MmioRead32 (DevBase +
>> DW_MMC_RESP3);
>>> +      break;
>>> +  }
>>> +
>>> +  //
>>> +  // The workaround on SD_SEND_CSD is used to be compatible with
>> SDHC.
>>> +  //
>>> +  if (Packet->SdMmcCmdBlk->CommandIndex == SD_SEND_CSD) {
>>> +    {
>>> +      UINT32   Buf[4];
>>> +      ZeroMem (Buf, sizeof (Buf));
>>> +      CopyMem (
>>> +        (UINT8 *)Buf,
>>> +        (UINT8 *)&Packet->SdMmcStatusBlk->Resp0 + 1,
>>> +        sizeof (Buf) - 1
>>> +        );
>>> +      CopyMem (
>>> +        (UINT8 *)&Packet->SdMmcStatusBlk->Resp0,
>>> +        (UINT8 *)Buf,
>>> +        sizeof (Buf) - 1
>>> +        );
>>> +    }
>>> +  }
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Execute the specified TRB.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The TRB is sent to host controller successfully.
>>> +  @retval Others            Some erros happen when sending this request to
>> the
>>> +                            host controller.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcExecTrb (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  )
>>> +{
>>> +  EFI_STATUS                          Status = EFI_SUCCESS;
>>> +  UINT32                              Slot;
>>> +
>>> +  Slot = Trb->Slot;
>>> +  if (Private->Slot[Slot].CardType == EmmcCardType) {
>>> +    Status = DwEmmcExecTrb (Private, Trb);
>>> +  } else if (Private->Slot[Slot].CardType == SdCardType) {
>>> +    Status = DwSdExecTrb (Private, Trb);
>>> +  } else {
>>> +    ASSERT (0);
>>> +  }
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Check the TRB execution result.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The TRB is executed successfully.
>>> +  @retval EFI_NOT_READY     The TRB is not completed for execution.
>>> +  @retval Others            Some erros happen when executing this request.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcCheckTrbResult (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET *Packet;
>>> +  UINT32                              Idsts;
>>> +  UINTN                               DevBase;
>>> +
>>> +  DevBase = Private->DevBase;
>>> +  Packet  = Trb->Packet;
>>> +  if (Trb->UseFifo == TRUE) {
>>> +    return EFI_SUCCESS;
>>> +  }
>>> +  if (Packet->InTransferLength) {
>>> +    do {
>>> +      Idsts = MmioRead32 (DevBase + DW_MMC_IDSTS);
>>> +    } while ((Idsts & BIT1) == 0);
>>> +  } else if (Packet->OutTransferLength) {
>>> +    do {
>>> +      Idsts = MmioRead32 (DevBase + DW_MMC_IDSTS);
>>> +    } while ((Idsts & BIT0) == 0);
>>> +  } else {
>>> +    return EFI_SUCCESS;
>>> +  }
>>> +  Idsts = ~0;
>>> +  MmioWrite32 (DevBase + DW_MMC_IDSTS, Idsts);
>>> +
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Wait for the TRB execution result.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +  @param[in] Trb            The pointer to the DW_MMC_HC_TRB instance.
>>> +
>>> +  @retval EFI_SUCCESS       The TRB is executed successfully.
>>> +  @retval Others            Some erros happen when executing this request.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +DwMmcWaitTrbResult (
>>> +  IN DW_MMC_HC_PRIVATE_DATA           *Private,
>>> +  IN DW_MMC_HC_TRB                    *Trb
>>> +  )
>>> +{
>>> +  EFI_STATUS                          Status;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET *Packet;
>>> +  UINT64                              Timeout;
>>> +  BOOLEAN                             InfiniteWait;
>>> +
>>> +  Packet = Trb->Packet;
>>> +  //
>>> +  // Wait Command Complete Interrupt Status bit in Normal Interrupt
>> Status
>>> +  // Register
>>> +  //
>>> +  Timeout = Packet->Timeout;
>>> +  if (Timeout == 0) {
>>> +    InfiniteWait = TRUE;
>>> +  } else {
>>> +    InfiniteWait = FALSE;
>>> +  }
>>> +
>>> +  while (InfiniteWait || (Timeout > 0)) {
>>> +    //
>>> +    // Check Trb execution result by reading Normal Interrupt Status
>> register.
>>> +    //
>>> +    Status = DwMmcCheckTrbResult (Private, Trb);
>>> +    if (Status != EFI_NOT_READY) {
>>> +      return Status;
>>> +    }
>>> +    //
>>> +    // Stall for 1 microsecond.
>>> +    //
>>> +    gBS->Stall (1);
>>> +
>>> +    Timeout--;
>>> +  }
>>> +
>>> +  return EFI_TIMEOUT;
>>> +}
>>> diff --git a/EmbeddedPkg/Drivers/DwMmcHcDxe/EmmcDevice.c
>> b/EmbeddedPkg/Drivers/DwMmcHcDxe/EmmcDevice.c
>>> new file mode 100644
>>> index 000000000000..b7a8688c4d2e
>>> --- /dev/null
>>> +++ b/EmbeddedPkg/Drivers/DwMmcHcDxe/EmmcDevice.c
>>> @@ -0,0 +1,1042 @@
>>> +/** @file
>>> +  This file provides some helper functions which are specific for EMMC
>> device.
>>> +
>>> +  Copyright (c) 2015 - 2021, Intel Corporation. All rights reserved.<BR>
>>> +  Copyright (c) 2018, Linaro. All rights reserved.<BR>
>>> +
>>> +  This program and the accompanying materials are licensed and made
>> available
>>> +  under the terms and conditions of the BSD License which accompanies
>> this
>>> +  distribution.  The full text of the license may be found at
>>> +  http://opensource.org/licenses/bsd-license.php
>>> +
>>> +  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS"
>> BASIS,
>>> +  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER
>> EXPRESS OR IMPLIED.
>>> +
>>> +**/
>>> +
>>> +#include <IndustryStandard/Emmc.h>
>>> +
>>> +#include <Library/BaseMemoryLib.h>
>>> +#include <Library/DebugLib.h>
>>> +#include <Library/UefiBootServicesTableLib.h>
>>> +
>>> +#include "DwMmcHcDxe.h"
>>> +
>>> +#define EMMC_GET_STATE(x)                   (((x) >> 9) & 0xf)
>>> +#define EMMC_STATE_IDLE                     0
>>> +#define EMMC_STATE_READY                    1
>>> +#define EMMC_STATE_IDENT                    2
>>> +#define EMMC_STATE_STBY                     3
>>> +#define EMMC_STATE_TRAN                     4
>>> +#define EMMC_STATE_DATA                     5
>>> +#define EMMC_STATE_RCV                      6
>>> +#define EMMC_STATE_PRG                      7
>>> +#define EMMC_STATE_DIS                      8
>>> +#define EMMC_STATE_BTST                     9
>>> +#define EMMC_STATE_SLP                      10
>>> +
>>> +#define EMMC_CMD1_CAPACITY_LESS_THAN_2GB    0x00FF8080 //
>> Capacity <= 2GB, byte addressing used
>>> +#define EMMC_CMD1_CAPACITY_GREATER_THAN_2GB 0x40FF8080 //
>> Capacity > 2GB, 512-byte sector addressing used
>>> +
>>> +/**
>>> +  Send command GO_IDLE_STATE (CMD0 with argument of 0x00000000) to
>> the device to
>>> +  make it go to Idle State.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.4 for details.
>>> +
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] Slot           The slot number of the SD card to send the
>> command
>>> +                            to.
>>> +
>>> +  @retval EFI_SUCCESS       The EMMC device is reset correctly.
>>> +  @retval Others            The device reset fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcReset (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = EMMC_GO_IDLE_STATE;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeBc;
>>> +  SdMmcCmdBlk.ResponseType = 0;
>>> +  SdMmcCmdBlk.CommandArgument = 0;
>>> +
>>> +  gBS->Stall (1000);
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SEND_OP_COND to the EMMC device to get the data of
>> the OCR
>>> +  register.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.4 for details.
>>> +
>>> +  @param[in]      PassThru  A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in, out] Argument  On input, the argument of SEND_OP_COND
>> is to send
>>> +                            to the device.
>>> +                            On output, the argument is the value of OCR
>>> +                            register.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcGetOcr (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru,
>>> +  IN OUT UINT32                         *Argument
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = EMMC_SEND_OP_COND;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeBcr;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR3;
>>> +  SdMmcCmdBlk.CommandArgument = *Argument;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  if (!EFI_ERROR (Status)) {
>>> +    //
>>> +    // For details, refer to SD Host Controller Simplified Spec 3.0 Table 2-12.
>>> +    //
>>> +    *Argument = SdMmcStatusBlk.Resp0;
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Broadcast command ALL_SEND_CID to the bus to ask all the EMMC
>> devices to send
>>> +  the data of their CID registers.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.4 for details.
>>> +
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcGetAllCid (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = EMMC_ALL_SEND_CID;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeBcr;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR2;
>>> +  SdMmcCmdBlk.CommandArgument = 0;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SET_RELATIVE_ADDR to the EMMC device to assign a
>> Relative device
>>> +  Address (RCA).
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.4 for details.
>>> +
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] Rca            The relative device address to be assigned.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcSetRca (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = EMMC_SET_RELATIVE_ADDR;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = (UINT32)Rca << 16;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SEND_CSD to the EMMC device to get the data of the
>> CSD register.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.10.4 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in]  Rca           The relative device address of selected device.
>>> +  @param[out] Csd           The buffer to store the content of the CSD
>> register.
>>> +                            Note the caller should ignore the lowest byte of
>>> +                            this buffer as the content of this byte is
>>> +                            meaningless even if the operation succeeds.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcGetCsd (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru,
>>> +  IN     UINT16                         Rca,
>>> +     OUT EMMC_CSD                       *Csd
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = EMMC_SEND_CSD;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR2;
>>> +  SdMmcCmdBlk.CommandArgument = (UINT32)Rca << 16;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  if (!EFI_ERROR (Status)) {
>>> +    //
>>> +    // Copy 128bit data for CSD structure.
>>> +    //
>>> +    CopyMem ((VOID *)Csd + 1, &SdMmcStatusBlk.Resp0, sizeof
>> (EMMC_CSD) - 1);
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SELECT_DESELECT_CARD to the EMMC device to
>> select/deselect it.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.10.4 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in]  Rca           The relative device address of selected device.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcSelect (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = EMMC_SELECT_DESELECT_CARD;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = (UINT32)Rca << 16;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SEND_EXT_CSD to the EMMC device to get the data of
>> the EXT_CSD
>>> +  register.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.10.4 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[out] ExtCsd        The buffer to store the content of the EXT_CSD
>>> +                            register.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcGetExtCsd (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru,
>>> +     OUT EMMC_EXT_CSD                   *ExtCsd
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = EMMC_SEND_EXT_CSD;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAdtc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = 0x00000000;
>>> +
>>> +  Packet.InDataBuffer     = ExtCsd;
>>> +  Packet.InTransferLength = sizeof (EMMC_EXT_CSD);
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SWITCH to the EMMC device to switch the mode of
>> operation of the
>>> +  selected Device or modifies the EXT_CSD registers.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.10.4 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in]  Access        The access mode of SWTICH command.
>>> +  @param[in]  Index         The offset of the field to be access.
>>> +  @param[in]  Value         The value to be set to the specified field of
>>> +                            EXT_CSD register.
>>> +  @param[in]  CmdSet        The value of CmdSet field of EXT_CSD register.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcSwitch (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT8                              Access,
>>> +  IN UINT8                              Index,
>>> +  IN UINT8                              Value,
>>> +  IN UINT8                              CmdSet
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = EMMC_SWITCH;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1b;
>>> +  SdMmcCmdBlk.CommandArgument = (Access << 24) | (Index << 16) | \
>>> +                                (Value << 8) | CmdSet;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SEND_STATUS to the addressed EMMC device to get its
>> status
>>> +  register.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.10.4 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in]  Rca           The relative device address of addressed device.
>>> +  @param[out] DevStatus     The returned device status.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcSendStatus (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru,
>>> +  IN     UINT16                         Rca,
>>> +     OUT UINT32                         *DevStatus
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = EMMC_SEND_STATUS;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = (UINT32)Rca << 16;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  if (!EFI_ERROR (Status)) {
>>> +    *DevStatus = SdMmcStatusBlk.Resp0;
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SEND_TUNING_BLOCK to the EMMC device for HS200
>> optimal sampling
>>> +  point detection.
>>> +
>>> +  It may be sent up to 40 times until the host finishes the tuning
>> procedure.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.6.8 for details.
>>> +
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] BusWidth       The bus width to work.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcSendTuningBlk (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT8                              BusWidth
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +  UINT8                                 TuningBlock[128];
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = EMMC_SEND_TUNING_BLOCK;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAdtc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = 0;
>>> +
>>> +  Packet.InDataBuffer = TuningBlock;
>>> +  if (BusWidth == 8) {
>>> +    Packet.InTransferLength = sizeof (TuningBlock);
>>> +  } else {
>>> +    Packet.InTransferLength = 64;
>>> +  }
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Tunning the clock to get HS200 optimal sampling point.
>>> +
>>> +  Command SEND_TUNING_BLOCK may be sent up to 40 times until the
>> host finishes
>>> +  the tuning procedure.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.6.8.
>>> +
>>> +  @param[in] DevIo          A pointer to the EFI_DEVICE_IO_PROTOCOL
>> instance.
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] BusWidth       The bus width to work.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcTuningClkForHs200 (
>>> +  IN UINTN                              DevBase,
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT8                              BusWidth
>>> +  )
>>> +{
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Switch the bus width to specified width.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.6.9.
>>> +
>>> +  @param[in] DevIo          A pointer to the EFI_DEVICE_IO_PROTOCOL
>> instance.
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] Rca            The relative device address to be assigned.
>>> +  @param[in] IsDdr          If TRUE, use dual data rate data simpling method.
>>> +                            Otherwise use single data rate data simpling method.
>>> +  @param[in] BusWidth       The bus width to be set, it could be 4 or 8.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcSwitchBusWidth (
>>> +  IN UINTN                              DevBase,
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca,
>>> +  IN BOOLEAN                            IsDdr,
>>> +  IN UINT8                              BusWidth
>>> +  )
>>> +{
>>> +  EFI_STATUS          Status;
>>> +  UINT8               Access;
>>> +  UINT8               Index;
>>> +  UINT8               Value;
>>> +  UINT8               CmdSet;
>>> +  UINT32              DevStatus;
>>> +
>>> +  //
>>> +  // Write Byte, the Value field is written into the byte pointed by Index.
>>> +  //
>>> +  Access = 0x03;
>>> +  Index  = OFFSET_OF (EMMC_EXT_CSD, BusWidth);
>>> +  if (BusWidth == 1) {
>>> +    Value = 0;
>>> +  } else {
>>> +    if (BusWidth == 4) {
>>> +      Value = 1;
>>> +    } else if (BusWidth == 8) {
>>> +      Value = 2;
>>> +    } else {
>>> +      return EFI_INVALID_PARAMETER;
>>> +    }
>>> +
>>> +    if (IsDdr) {
>>> +      Value += 4;
>>> +    }
>>> +  }
>>> +
>>> +  CmdSet = 0;
>>> +  Status = EmmcSwitch (PassThru, Access, Index, Value, CmdSet);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "EmmcSwitchBusWidth: Switch to bus width %d fails with %r\n",
>>> +      BusWidth,
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +
>>> +  do {
>>> +    Status = EmmcSendStatus (PassThru, Rca, &DevStatus);
>>> +    if (EFI_ERROR (Status)) {
>>> +      DEBUG ((
>>> +        DEBUG_ERROR,
>>> +        "EmmcSwitchBusWidth: Send status fails with %r\n",
>>> +        Status
>>> +        ));
>>> +      return Status;
>>> +    }
>>> +    //
>>> +    // Check the switch operation is really successful or not.
>>> +    //
>>> +  } while ((DevStatus & 0xf) == EMMC_STATE_PRG);
>>> +
>>> +  Status = DwMmcHcSetBusWidth (DevBase, IsDdr, BusWidth);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Switch the clock frequency to the specified value.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.6.
>>> +
>>> +  @param[in] DevIo          A pointer to the EFI_DEVICE_IO_PROTOCOL
>> instance.
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] Rca            The relative device address to be assigned.
>>> +  @param[in] HsTiming       The value to be written to HS_TIMING field of
>>> +                            EXT_CSD register.
>>> +  @param[in] ClockFreq      The max clock frequency to be set, the unit is
>> MHz.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcSwitchClockFreq (
>>> +  IN UINTN                              DevBase,
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca,
>>> +  IN UINT8                              HsTiming,
>>> +  IN UINT32                             ClockFreq
>>> +  )
>>> +{
>>> +  EFI_STATUS                Status;
>>> +  UINT8                     Access;
>>> +  UINT8                     Index;
>>> +  UINT8                     Value;
>>> +  UINT8                     CmdSet;
>>> +  UINT32                    DevStatus;
>>> +  DW_MMC_HC_PRIVATE_DATA    *Private;
>>> +
>>> +  Private = DW_MMC_HC_PRIVATE_FROM_THIS (PassThru);
>>> +  //
>>> +  // Write Byte, the Value field is written into the byte pointed by Index.
>>> +  //
>>> +  Access = 0x03;
>>> +  Index  = OFFSET_OF (EMMC_EXT_CSD, HsTiming);
>>> +  Value  = HsTiming;
>>> +  CmdSet = 0;
>>> +
>>> +  Status = EmmcSwitch (PassThru, Access, Index, Value, CmdSet);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "EmmcSwitchClockFreq: Switch to hstiming %d fails with %r\n",
>>> +      HsTiming,
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +
>>> +  Status = EmmcSendStatus (PassThru, Rca, &DevStatus);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "EmmcSwitchClockFreq: Send status fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +  //
>>> +  // Check the switch operation is really successful or not.
>>> +  //
>>> +  if ((DevStatus & BIT7) != 0) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "EmmcSwitchClockFreq: The switch operation fails as DevStatus
>> 0x%08x\n",
>>> +      DevStatus
>>> +      ));
>>> +    return EFI_DEVICE_ERROR;
>>> +  }
>>> +  //
>>> +  // Convert the clock freq unit from MHz to KHz.
>>> +  //
>>> +  Status = DwMmcHcClockSupply (DevBase, ClockFreq * 1000, Private-
>>> Capability[0]);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Switch to the High Speed timing according to request.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.6.8.
>>> +
>>> +  @param[in] DevIo          A pointer to the EFI_DEVICE_IO_PROTOCOL
>> instance.
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] Rca            The relative device address to be assigned.
>>> +  @param[in] ClockFreq      The max clock frequency to be set.
>>> +  @param[in] IsDdr          If TRUE, use dual data rate data simpling method.
>>> +                            Otherwise use single data rate data simpling method.
>>> +  @param[in] BusWidth       The bus width to be set, it could be 4 or 8.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcSwitchToHighSpeed (
>>> +  IN UINTN                              DevBase,
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca,
>>> +  IN UINT32                             ClockFreq,
>>> +  IN BOOLEAN                            IsDdr,
>>> +  IN UINT8                              BusWidth
>>> +  )
>>> +{
>>> +  EFI_STATUS          Status;
>>> +  UINT8               HsTiming;
>>> +
>>> +  HsTiming = 1;
>>> +  Status = EmmcSwitchClockFreq (DevBase, PassThru, Rca, HsTiming,
>> ClockFreq);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +  Status = EmmcSwitchBusWidth (DevBase, PassThru, Rca, IsDdr,
>> BusWidth);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Switch to the HS200 timing according to request.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.6.8.
>>> +
>>> +  @param[in] DevIo          A pointer to the EFI_DEVICE_IO_PROTOCOL
>> instance.
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] Rca            The relative device address to be assigned.
>>> +  @param[in] ClockFreq      The max clock frequency to be set.
>>> +  @param[in] BusWidth       The bus width to be set, it could be 4 or 8.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcSwitchToHS200 (
>>> +  IN UINTN                              DevBase,
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca,
>>> +  IN UINT32                             ClockFreq,
>>> +  IN UINT8                              BusWidth
>>> +  )
>>> +{
>>> +  return EFI_SUCCESS;
>>> +}
>>> +
>>> +/**
>>> +  Switch the high speed timing according to request.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.6.8.
>>> +
>>> +  @param[in] DevIo          A pointer to the EFI_DEVICE_IO_PROTOCOL
>> instance.
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] Rca            The relative device address to be assigned.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcSetBusMode (
>>> +  IN UINTN                              DevBase,
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca
>>> +  )
>>> +{
>>> +  EFI_STATUS                    Status;
>>> +  EMMC_CSD                      Csd;
>>> +  EMMC_EXT_CSD                  ExtCsd;
>>> +  UINT8                         HsTiming;
>>> +  BOOLEAN                       IsDdr;
>>> +  UINT32                        DevStatus;
>>> +  UINT32                        ClockFreq;
>>> +  UINT8                         BusWidth;
>>> +  DW_MMC_HC_PRIVATE_DATA        *Private;
>>> +
>>> +  Private = DW_MMC_HC_PRIVATE_FROM_THIS (PassThru);
>>> +  ASSERT (Private->Capability[0].BaseClkFreq != 0);
>>> +
>>> +  Status = EmmcGetCsd (PassThru, Rca, &Csd);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((DEBUG_ERROR, "EmmcSetBusMode: GetCsd fails with %r\n",
>> Status));
>>> +    return Status;
>>> +  }
>>> +
>>> +  Status = EmmcSelect (PassThru, Rca);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((DEBUG_ERROR, "EmmcSetBusMode: Select fails with %r\n",
>> Status));
>>> +    return Status;
>>> +  }
>>> +
>>> +  do {
>>> +    Status = EmmcSendStatus (PassThru, Rca, &DevStatus);
>>> +    if (EFI_ERROR (Status)) {
>>> +      DEBUG ((
>>> +        DEBUG_ERROR,
>>> +        "EmmcSetBusMode: Get Status fails with %r\n",
>>> +        Status
>>> +        ));
>>> +      return Status;
>>> +    }
>>> +  } while (EMMC_GET_STATE (DevStatus) != EMMC_STATE_TRAN);
>>> +
>>> +  BusWidth = 1;
>>> +  Status = EmmcSwitchBusWidth (DevBase, PassThru, Rca, FALSE,
>> BusWidth);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  BusWidth = Private->Capability[0].BusWidth;
>>> +  //
>>> +  // Get Deivce_Type from EXT_CSD register.
>>> +  //
>>> +  Status = EmmcGetExtCsd (PassThru, &ExtCsd);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((DEBUG_ERROR, "EmmcSetBusMode: GetExtCsd fails with
>> %r\n", Status));
>>> +    return Status;
>>> +  }
>>> +
>>> +  //
>>> +  // Calculate supported bus speed/bus width/clock frequency.
>>> +  //
>>> +  HsTiming  = 0;
>>> +  IsDdr     = FALSE;
>>> +  ClockFreq = 0;
>>> +  if (((ExtCsd.DeviceType & (BIT4 | BIT5)) != 0) &&
>>> +      (Private->Capability[0].Sdr104 != 0)) {
>>> +    HsTiming  = 2;
>>> +    IsDdr     = FALSE;
>>> +    ClockFreq = 200;
>>> +  } else if (((ExtCsd.DeviceType & (BIT2 | BIT3)) != 0) &&
>>> +             (Private->Capability[0].Ddr50 != 0)) {
>>> +    HsTiming  = 1;
>>> +    IsDdr     = TRUE;
>>> +    ClockFreq = 52;
>>> +  } else if (((ExtCsd.DeviceType & BIT1) != 0) &&
>>> +             (Private->Capability[0].HighSpeed != 0)) {
>>> +    HsTiming  = 1;
>>> +    IsDdr     = FALSE;
>>> +    ClockFreq = 52;
>>> +  } else if (((ExtCsd.DeviceType & BIT0) != 0) &&
>>> +             (Private->Capability[0].HighSpeed != 0)) {
>>> +    HsTiming  = 1;
>>> +    IsDdr     = FALSE;
>>> +    ClockFreq = 26;
>>> +  }
>>> +
>>> +  if ((ClockFreq == 0) || (HsTiming == 0)) {
>>> +    //
>>> +    // Continue using default setting.
>>> +    //
>>> +    return EFI_SUCCESS;
>>> +  }
>>> +
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "EmmcSetBusMode: HsTiming %d ClockFreq %d BusWidth %d Ddr
>> %a\n",
>>> +    HsTiming,
>>> +    ClockFreq,
>>> +    BusWidth,
>>> +    IsDdr ? "TRUE" : "FALSE"
>>> +    ));
>>> +
>>> +  if (HsTiming == 2) {
>>> +    //
>>> +    // Execute HS200 timing switch procedure
>>> +    //
>>> +    Status = EmmcSwitchToHS200 (DevBase, PassThru, Rca, ClockFreq,
>> BusWidth);
>>> +  } else {
>>> +    //
>>> +    // Execute High Speed timing switch procedure
>>> +    //
>>> +    Status = EmmcSwitchToHighSpeed (
>>> +               DevBase,
>>> +               PassThru,
>>> +               Rca,
>>> +               ClockFreq,
>>> +               IsDdr,
>>> +               BusWidth
>>> +               );
>>> +  }
>>> +
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "EmmcSetBusMode: Switch to %a %r\n",
>>> +    (HsTiming == 3) ? "HS400" : ((HsTiming == 2) ? "HS200" : "HighSpeed"),
>>> +    Status
>>> +    ));
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Execute EMMC device identification procedure.
>>> +
>>> +  Refer to EMMC Electrical Standard Spec 5.1 Section 6.4 for details.
>>> +
>>> +  @param[in] Private        A pointer to the DW_MMC_HC_PRIVATE_DATA
>> instance.
>>> +
>>> +  @retval EFI_SUCCESS       There is a EMMC card.
>>> +  @retval Others            There is not a EMMC card.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +EmmcIdentification (
>>> +  IN DW_MMC_HC_PRIVATE_DATA             *Private
>>> +  )
>>> +{
>>> +  EFI_STATUS                     Status;
>>> +  UINTN                          DevBase;
>>> +  EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru;
>>> +  UINT32                         Ocr;
>>> +  UINT16                         Rca;
>>> +  UINT32                         DevStatus;
>>> +  UINT32                         Timeout;
>>> +
>>> +  DevBase    = Private->DevBase;
>>> +  PassThru = &Private->PassThru;
>>> +
>>> +  Status = EmmcReset (PassThru);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_INFO,
>>> +      "EmmcIdentification: Executing Cmd0 fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +
>>> +  Timeout = 100;
>>> +  do {
>>> +    Ocr = EMMC_CMD1_CAPACITY_GREATER_THAN_2GB;
>>> +    Status = EmmcGetOcr (PassThru, &Ocr);
>>> +    if (EFI_ERROR (Status)) {
>>> +      DEBUG ((
>>> +        DEBUG_INFO,
>>> +        "EmmcIdentification: Executing Cmd1 fails with %r\n",
>>> +        Status
>>> +        ));
>>> +      return Status;
>>> +    }
>>> +    if (--Timeout <= 0) {
>>> +      return EFI_DEVICE_ERROR;
>>> +    }
>>> +    MicroSecondDelay (100);
>>> +  } while ((Ocr & BIT31) == 0);
>>> +
>>> +  Status = EmmcGetAllCid (PassThru);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_INFO,
>>> +      "EmmcIdentification: Executing Cmd2 fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +  //
>>> +  // valid RCA starts from 1.
>>> +  // Here we takes a simple formula to calculate the RCA.
>>> +  // Don't support multiple devices on the slot, that is
>>> +  // shared bus slot feature.
>>> +  //
>>> +  Rca    = 1;
>>> +  Status = EmmcSetRca (PassThru, Rca);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_INFO,
>>> +      "EmmcIdentification: Executing Cmd3 fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +  //
>>> +  // Enter Data Tranfer Mode.
>>> +  //
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "EmmcIdentification: Found a EMMC device at RCA [%d]\n",
>>> +    Rca
>>> +    ));
>>> +  Private->Slot[0].CardType = EmmcCardType;
>>> +
>>> +  Status = EmmcSetBusMode (DevBase, PassThru, Rca);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  //
>>> +  // Exit DATA Mode.
>>> +  //
>>> +  do {
>>> +    Status = EmmcSendStatus (PassThru, Rca, &DevStatus);
>>> +    if (EFI_ERROR (Status)) {
>>> +      DEBUG ((
>>> +        DEBUG_INFO,
>>> +        "EmmcSwitchBusWidth: Send status fails with %r\n",
>>> +        Status
>>> +        ));
>>> +      return Status;
>>> +    }
>>> +  } while ((DevStatus & 0xf) == EMMC_STATE_DATA);
>>> +
>>> +  return Status;
>>> +}
>>> diff --git a/EmbeddedPkg/Drivers/DwMmcHcDxe/SdDevice.c
>> b/EmbeddedPkg/Drivers/DwMmcHcDxe/SdDevice.c
>>> new file mode 100644
>>> index 000000000000..63246637b6dd
>>> --- /dev/null
>>> +++ b/EmbeddedPkg/Drivers/DwMmcHcDxe/SdDevice.c
>>> @@ -0,0 +1,1105 @@
>>> +/** @file
>>> +  This file provides some helper functions which are specific for SD card
>>> +  device.
>>> +
>>> +  Copyright (c) 2015 - 2021, Intel Corporation. All rights reserved.<BR>
>>> +  Copyright (c) 2018, Linaro. All rights reserved.<BR>
>>> +
>>> +  This program and the accompanying materials are licensed and made
>> available
>>> +  under the terms and conditions of the BSD License which accompanies
>> this
>>> +  distribution.  The full text of the license may be found at
>>> +  http://opensource.org/licenses/bsd-license.php
>>> +
>>> +  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS"
>> BASIS,
>>> +  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER
>> EXPRESS OR IMPLIED.
>>> +
>>> +**/
>>> +
>>> +#include <IndustryStandard/Sd.h>
>>> +
>>> +#include <Library/BaseMemoryLib.h>
>>> +#include <Library/DebugLib.h>
>>> +
>>> +#include "DwMmcHcDxe.h"
>>> +
>>> +/**
>>> +  Send command GO_IDLE_STATE to the device to make it go to Idle State.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +
>>> +  @retval EFI_SUCCESS       The SD device is reset correctly.
>>> +  @retval Others            The device reset fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardReset (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_GO_IDLE_STATE;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeBc;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  //Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SEND_IF_COND to the device to inquiry the SD Memory
>> Card
>>> +  interface condition.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] SupplyVoltage  The supplied voltage by the host.
>>> +  @param[in] CheckPattern   The check pattern to be sent to the device.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardVoltageCheck (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT8                              SupplyVoltage,
>>> +  IN UINT8                              CheckPattern
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_SEND_IF_COND;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeBcr;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR7;
>>> +  SdMmcCmdBlk.CommandArgument = (SupplyVoltage << 8) |
>> CheckPattern;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  if (!EFI_ERROR (Status)) {
>>> +    if (SdMmcStatusBlk.Resp0 != SdMmcCmdBlk.CommandArgument) {
>>> +      return EFI_DEVICE_ERROR;
>>> +    }
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SDIO_SEND_OP_COND to the device to see whether it is
>> SDIO device.
>>> +
>>> +  Refer to SDIO Simplified Spec 3 Section 3.2 for details.
>>> +
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] VoltageWindow  The supply voltage window.
>>> +  @param[in] S18R           The boolean to show if it should switch to 1.8v.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdioSendOpCond (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT32                             VoltageWindow,
>>> +  IN BOOLEAN                            S18R
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +  UINT32                                Switch;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SDIO_SEND_OP_COND;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeBcr;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR4;
>>> +
>>> +  Switch = S18R ? BIT24 : 0;
>>> +
>>> +  SdMmcCmdBlk.CommandArgument = (VoltageWindow & 0xFFFFFF) |
>> Switch;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SD_SEND_OP_COND to the device to see whether it is
>> SDIO device.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in]  PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                             instance.
>>> +  @param[in]  Rca            The relative device address of addressed device.
>>> +  @param[in]  VoltageWindow  The supply voltage window.
>>> +  @param[in]  S18R           The boolean to show if it should switch to 1.8v.
>>> +  @param[in]  Xpc            The boolean to show if it should provide 0.36w
>>> +                             power control.
>>> +  @param[in]  Hcs            The boolean to show if it support host capacity
>>> +                             info.
>>> +  @param[out] Ocr            The buffer to store returned OCR register value.
>>> +
>>> +  @retval EFI_SUCCESS        The operation is done correctly.
>>> +  @retval Others             The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardSendOpCond (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru,
>>> +  IN     UINT16                         Rca,
>>> +  IN     UINT32                         VoltageWindow,
>>> +  IN     BOOLEAN                        S18R,
>>> +  IN     BOOLEAN                        Xpc,
>>> +  IN     BOOLEAN                        Hcs,
>>> +     OUT UINT32                         *Ocr
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +  UINT32                                Switch;
>>> +  UINT32                                MaxPower;
>>> +  UINT32                                HostCapacity;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_APP_CMD;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = (UINT32)Rca << 16;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_SEND_OP_COND;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeBcr;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR3;
>>> +
>>> +  Switch       = S18R ? BIT24 : 0;
>>> +  MaxPower     = Xpc ? BIT28 : 0;
>>> +  HostCapacity = Hcs ? BIT30 : 0;
>>> +
>>> +  SdMmcCmdBlk.CommandArgument = (VoltageWindow & 0xFFFFFF) |
>> Switch | \
>>> +                                MaxPower | HostCapacity;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  if (!EFI_ERROR (Status)) {
>>> +    *Ocr = SdMmcStatusBlk.Resp0;
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Broadcast command ALL_SEND_CID to the bus to ask all the SD devices
>> to send
>>> +  the data of their CID registers.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardAllSendCid (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_ALL_SEND_CID;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeBcr;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR2;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SET_RELATIVE_ADDR to the SD device to assign a
>> Relative device
>>> +  Address (RCA).
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[out] Rca           The relative device address to assign.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardSetRca (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru,
>>> +     OUT UINT16                         *Rca
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_SET_RELATIVE_ADDR;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeBcr;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR6;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  if (!EFI_ERROR (Status)) {
>>> +    *Rca = (UINT16)(SdMmcStatusBlk.Resp0 >> 16);
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SEND_CSD to the SD device to get the data of the CSD
>> register.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in]  Rca           The relative device address of selected device.
>>> +  @param[out] Csd           The buffer to store the content of the CSD
>> register.
>>> +                            Note the caller should ignore the lowest byte of
>>> +                            this buffer as the content of this byte is meaning-
>>> +                            less even if the operation succeeds.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardGetCsd (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru,
>>> +  IN     UINT16                         Rca,
>>> +     OUT SD_CSD                         *Csd
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_SEND_CSD;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR2;
>>> +  SdMmcCmdBlk.CommandArgument = (UINT32)Rca << 16;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  if (!EFI_ERROR (Status)) {
>>> +    CopyMem (((UINT8*)Csd) + 1, &SdMmcStatusBlk.Resp0, sizeof
>> (SD_CSD) - 1);
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SEND_CSD to the SD device to get the data of the CSD
>> register.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in]  Rca           The relative device address of selected device.
>>> +  @param[out] Scr           The buffer to store the content of the SCR
>> register.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardGetScr (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru,
>>> +  IN     UINT16                         Rca,
>>> +     OUT SD_SCR                         *Scr
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_APP_CMD;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = (UINT32)Rca << 16;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_SEND_SCR;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAdtc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +
>>> +  Packet.InDataBuffer     = Scr;
>>> +  Packet.InTransferLength = sizeof (SD_SCR);
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SELECT_DESELECT_CARD to the SD device to
>> select/deselect it.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in]  Rca           The relative device address of selected device.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardSelect (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_SELECT_DESELECT_CARD;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  if (Rca != 0) {
>>> +    SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1b;
>>> +  }
>>> +  SdMmcCmdBlk.CommandArgument = (UINT32)Rca << 16;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command VOLTAGE_SWITCH to the SD device to switch the voltage
>> of the
>>> +  device.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardVoltageSwitch (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_VOLTAGE_SWITCH;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = 0;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SET_BUS_WIDTH to the SD device to set the bus width.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] Rca            The relative device address of addressed device.
>>> +  @param[in] BusWidth       The bus width to be set, it could be 1 or 4.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardSetBusWidth (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca,
>>> +  IN UINT8                              BusWidth
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +  UINT8                                 Value;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_APP_CMD;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = (UINT32)Rca << 16;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_SET_BUS_WIDTH;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +
>>> +  if (BusWidth == 1) {
>>> +    Value = 0;
>>> +  } else if (BusWidth == 4) {
>>> +    Value = 2;
>>> +  } else {
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  SdMmcCmdBlk.CommandArgument = Value & 0x3;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SWITCH_FUNC to the SD device to check switchable
>> function or
>>> +  switch card function.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in]  AccessMode    The value for access mode group.
>>> +  @param[in]  CommandSystem The value for command set group.
>>> +  @param[in]  DriveStrength The value for drive length group.
>>> +  @param[in]  PowerLimit    The value for power limit group.
>>> +  @param[in]  Mode          Switch or check function.
>>> +  @param[out] SwitchResp    The return switch function status.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardSwitch (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru,
>>> +  IN     UINT8                          AccessMode,
>>> +  IN     UINT8                          CommandSystem,
>>> +  IN     UINT8                          DriveStrength,
>>> +  IN     UINT8                          PowerLimit,
>>> +  IN     BOOLEAN                        Mode,
>>> +     OUT UINT8                          *SwitchResp
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +  UINT32                                ModeValue;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_SWITCH_FUNC;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAdtc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +
>>> +  ModeValue = Mode ? BIT31 : 0;
>>> +  SdMmcCmdBlk.CommandArgument = (AccessMode & 0xF) |            \
>>> +                                ((PowerLimit & 0xF) << 4) |     \
>>> +                                ((DriveStrength & 0xF) << 8) |  \
>>> +                                ((DriveStrength & 0xF) << 12) | \
>>> +                                ModeValue;
>>> +
>>> +  Packet.InDataBuffer     = SwitchResp;
>>> +  Packet.InTransferLength = 64;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SEND_STATUS to the addressed SD device to get its
>> status
>>> +  register.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in]  PassThru      A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in]  Rca           The relative device address of addressed device.
>>> +  @param[out] DevStatus     The returned device status.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardSendStatus (
>>> +  IN     EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru,
>>> +  IN     UINT16                         Rca,
>>> +     OUT UINT32                         *DevStatus
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_SEND_STATUS;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = (UINT32)Rca << 16;
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +  if (!EFI_ERROR (Status)) {
>>> +    *DevStatus = SdMmcStatusBlk.Resp0;
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Send command SEND_TUNING_BLOCK to the SD device for HS200
>> optimal sampling
>>> +  point detection.
>>> +
>>> +  It may be sent up to 40 times until the host finishes the tuning
>> procedure.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardSendTuningBlk (
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru
>>> +  )
>>> +{
>>> +  EFI_SD_MMC_COMMAND_BLOCK              SdMmcCmdBlk;
>>> +  EFI_SD_MMC_STATUS_BLOCK               SdMmcStatusBlk;
>>> +  EFI_SD_MMC_PASS_THRU_COMMAND_PACKET   Packet;
>>> +  EFI_STATUS                            Status;
>>> +  UINT8                                 TuningBlock[64];
>>> +
>>> +  ZeroMem (&SdMmcCmdBlk, sizeof (SdMmcCmdBlk));
>>> +  ZeroMem (&SdMmcStatusBlk, sizeof (SdMmcStatusBlk));
>>> +  ZeroMem (&Packet, sizeof (Packet));
>>> +
>>> +  Packet.SdMmcCmdBlk    = &SdMmcCmdBlk;
>>> +  Packet.SdMmcStatusBlk = &SdMmcStatusBlk;
>>> +  Packet.Timeout        = DW_MMC_HC_GENERIC_TIMEOUT;
>>> +
>>> +  SdMmcCmdBlk.CommandIndex = SD_SEND_TUNING_BLOCK;
>>> +  SdMmcCmdBlk.CommandType  = SdMmcCommandTypeAdtc;
>>> +  SdMmcCmdBlk.ResponseType = SdMmcResponseTypeR1;
>>> +  SdMmcCmdBlk.CommandArgument = 0;
>>> +
>>> +  Packet.InDataBuffer     = TuningBlock;
>>> +  Packet.InTransferLength = sizeof (TuningBlock);
>>> +
>>> +  Status = PassThru->PassThru (PassThru, 0, &Packet, NULL);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Switch the bus width to specified width.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 and
>>> +  SD Host Controller Simplified Spec 3.0 section Figure 3-7 for details.
>>> +
>>> +  @param[in] PciIo          A pointer to the EFI_PCI_IO_PROTOCOL instance.
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] Rca            The relative device address to be assigned.
>>> +  @param[in] BusWidth       The bus width to be set, it could be 4 or 8.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardSwitchBusWidth (
>>> +  IN UINTN                              DevBase,
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca,
>>> +  IN BOOLEAN                            IsDdr,
>>> +  IN UINT8                              BusWidth
>>> +  )
>>> +{
>>> +  EFI_STATUS          Status;
>>> +  UINT32              DevStatus;
>>> +
>>> +  Status = SdCardSetBusWidth (PassThru, Rca, BusWidth);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardSwitchBusWidth: Switch to bus width %d fails with %r\n",
>>> +      BusWidth,
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +
>>> +  Status = SdCardSendStatus (PassThru, Rca, &DevStatus);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardSwitchBusWidth: Send status fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +  //
>>> +  // Check the switch operation is really successful or not.
>>> +  //
>>> +  if ((DevStatus >> 16) != 0) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardSwitchBusWidth: The switch operation fails as DevStatus
>> 0x%08x\n",
>>> +      DevStatus
>>> +      ));
>>> +    return EFI_DEVICE_ERROR;
>>> +  }
>>> +
>>> +  Status = DwMmcHcSetBusWidth (DevBase, IsDdr, BusWidth);
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +/**
>>> +  Switch the high speed timing according to request.
>>> +
>>> +  Refer to SD Physical Layer Simplified Spec 4.1 Section 4.7 for details.
>>> +
>>> +  @param[in] PciIo          A pointer to the EFI_PCI_IO_PROTOCOL instance.
>>> +  @param[in] PassThru       A pointer to the
>> EFI_SD_MMC_PASS_THRU_PROTOCOL
>>> +                            instance.
>>> +  @param[in] Rca            The relative device address to be assigned.
>>> +  @param[in] S18A           The boolean to show if it's a UHS-I SD card.
>>> +  @param[in] BusWidths      The bus width of the SD card.
>>> +
>>> +  @retval EFI_SUCCESS       The operation is done correctly.
>>> +  @retval Others            The operation fails.
>>> +
>>> +**/
>>> +EFI_STATUS
>>> +SdCardSetBusMode (
>>> +  IN UINTN                              DevBase,
>>> +  IN EFI_SD_MMC_PASS_THRU_PROTOCOL      *PassThru,
>>> +  IN UINT16                             Rca,
>>> +  IN BOOLEAN                            S18A,
>>> +  IN UINT32                             BusWidths
>>> +  )
>>> +{
>>> +  EFI_STATUS                   Status;
>>> +  DW_MMC_HC_SLOT_CAP           *Capability;
>>> +  UINT32                       ClockFreq;
>>> +  UINT8                        AccessMode;
>>> +  UINT8                        SwitchResp[64];
>>> +  DW_MMC_HC_PRIVATE_DATA       *Private;
>>> +  BOOLEAN                      IsDdr;
>>> +
>>> +  Private = DW_MMC_HC_PRIVATE_FROM_THIS (PassThru);
>>> +
>>> +  Capability = &Private->Capability[0];
>>> +
>>> +  if ((Capability->BusWidth == 1) || (Capability->BusWidth == 4)) {
>>> +    BusWidths &= Capability[0].BusWidth;
>>> +  } else {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardSetBusMode: BusWidths (%d) in capability are wrong\n",
>>> +      Capability->BusWidth
>>> +      ));
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  if (BusWidths == 0) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardSetBusMode: Get wrong BusWidths:%d\n",
>>> +      BusWidths
>>> +      ));
>>> +    return EFI_INVALID_PARAMETER;
>>> +  }
>>> +
>>> +  if (Private->Capability[0].Ddr50) {
>>> +    IsDdr = TRUE;
>>> +  } else {
>>> +    IsDdr = FALSE;
>>> +  }
>>> +
>>> +  Status = SdCardSwitchBusWidth (DevBase, PassThru, Rca, IsDdr,
>> BusWidths);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardSetBusMode: Executing SdCardSwitchBusWidth fails with
>> %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +
>>> +  //
>>> +  // Get the supported bus speed from SWITCH cmd return data group #1.
>>> +  //
>>> +  Status = SdCardSwitch (PassThru, 0xF, 0xF, 0xF, 0xF, FALSE, SwitchResp);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +  //
>>> +  // Calculate supported bus speed/bus width/clock frequency by host and
>> device
>>> +  // capability.
>>> +  //
>>> +  ClockFreq = 0;
>>> +  if (S18A && (Capability->Sdr104 != 0) && ((SwitchResp[13] & BIT3) != 0)) {
>>> +    ClockFreq = 208;
>>> +    AccessMode = 3;
>>> +  } else if (S18A && (Capability->Sdr50 != 0) &&
>>> +             ((SwitchResp[13] & BIT2) != 0)) {
>>> +    ClockFreq = 100;
>>> +    AccessMode = 2;
>>> +  } else if (S18A && (Capability->Ddr50 != 0) &&
>>> +             ((SwitchResp[13] & BIT4) != 0)) {
>>> +    ClockFreq = 50;
>>> +    AccessMode = 4;
>>> +  } else if ((SwitchResp[13] & BIT1) != 0) {
>>> +    ClockFreq = 50;
>>> +    AccessMode = 1;
>>> +  } else {
>>> +    ClockFreq = 25;
>>> +    AccessMode = 0;
>>> +  }
>>> +
>>> +  Status = SdCardSwitch (PassThru, AccessMode, 0xF, 0xF, 0xF, TRUE,
>> SwitchResp);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  if ((SwitchResp[16] & 0xF) != AccessMode) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardSetBusMode: Switch to AccessMode %d ClockFreq %d fails!
>> The Switch response is 0x%1x\n",
>>> +      AccessMode,
>>> +      ClockFreq,
>>> +      SwitchResp[16] & 0xF
>>> +      ));
>>> +    return EFI_DEVICE_ERROR;
>>> +  }
>>> +
>>> +  DEBUG ((
>>> +    DEBUG_INFO,
>>> +    "SdCardSetBusMode: Switch to AccessMode %d ClockFreq %d \n",
>>> +    AccessMode,
>>> +    ClockFreq
>>> +    ));
>>> +
>>> +  Status = DwMmcHcClockSupply (DevBase, ClockFreq * 1000, *Capability);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  return Status;
>>> +}
>>> +
>>> +EFI_STATUS
>>> +SdCardIdentification (
>>> +  IN DW_MMC_HC_PRIVATE_DATA             *Private
>>> +  )
>>> +{
>>> +  EFI_STATUS                     Status;
>>> +  UINTN                          DevBase;
>>> +  EFI_SD_MMC_PASS_THRU_PROTOCOL  *PassThru;
>>> +  UINT32                         Ocr;
>>> +  UINT16                         Rca;
>>> +  BOOLEAN                        Xpc;
>>> +  BOOLEAN                        S18r;
>>> +  UINT64                         MaxCurrent;
>>> +  SD_SCR                         Scr;
>>> +  SD_CSD                         Csd;
>>> +
>>> +  DevBase    = Private->DevBase;
>>> +  PassThru = &Private->PassThru;
>>> +  //
>>> +  // 1. Send Cmd0 to the device
>>> +  //
>>> +  Status = SdCardReset (PassThru);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_INFO,
>>> +      "SdCardIdentification: Executing Cmd0 fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +  MicroSecondDelay (10000);
>>> +  //
>>> +  // 2. Send Cmd8 to the device
>>> +  //
>>> +  Status = SdCardVoltageCheck (PassThru, 0x1, 0xFF);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_INFO,
>>> +      "SdCardIdentification: Executing Cmd8 fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +  //
>>> +  // 3. Send Acmd41 with voltage window 0 to the device
>>> +  //
>>> +  Status = SdCardSendOpCond (PassThru, 0, 0, FALSE, FALSE, FALSE, &Ocr);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_INFO,
>>> +      "SdCardIdentification: Executing SdCardSendOpCond fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return EFI_DEVICE_ERROR;
>>> +  }
>>> +
>>> +  if (Private->Capability[0].Voltage33 != 0) {
>>> +    //
>>> +    // Support 3.3V
>>> +    //
>>> +    MaxCurrent = ((UINT32)Private->MaxCurrent[0] & 0xFF) * 4;
>>> +    S18r = FALSE;
>>> +  } else if (Private->Capability[0].Voltage30 != 0) {
>>> +    //
>>> +    // Support 3.0V
>>> +    //
>>> +    MaxCurrent = (((UINT32)Private->MaxCurrent[0] >> 8) & 0xFF) * 4;
>>> +    S18r = FALSE;
>>> +  } else if (Private->Capability[0].Voltage18 != 0) {
>>> +    //
>>> +    // Support 1.8V
>>> +    //
>>> +    MaxCurrent = (((UINT32)Private->MaxCurrent[0] >> 16) & 0xFF) * 4;
>>> +    S18r = TRUE;
>>> +  } else {
>>> +    ASSERT (FALSE);
>>> +    return EFI_DEVICE_ERROR;
>>> +  }
>>> +
>>> +  if (MaxCurrent >= 150) {
>>> +    Xpc = TRUE;
>>> +  } else {
>>> +    Xpc = FALSE;
>>> +  }
>>> +
>>> +  //
>>> +  // 4. Repeatly send Acmd41 with supply voltage window to the device.
>>> +  //    Note here we only support the cards complied with SD physical
>>> +  //    layer simplified spec version 2.0 and version 3.0 and above.
>>> +  //
>>> +  do {
>>> +    Status = SdCardSendOpCond (PassThru, 0, Ocr, S18r, Xpc, TRUE, &Ocr);
>>> +    if (EFI_ERROR (Status)) {
>>> +      DEBUG ((
>>> +        DEBUG_ERROR,
>>> +        "SdCardIdentification: SdCardSendOpCond fails with %r Ocr %x, S18r
>> %x, Xpc %x\n",
>>> +        Status,
>>> +        Ocr,
>>> +        S18r,
>>> +        Xpc
>>> +        ));
>>> +      return EFI_DEVICE_ERROR;
>>> +    }
>>> +  } while ((Ocr & BIT31) == 0);
>>> +
>>> +  Status = SdCardAllSendCid (PassThru);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardIdentification: Executing SdCardAllSendCid fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +
>>> +  Status = SdCardSetRca (PassThru, &Rca);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardIdentification: Executing SdCardSetRca fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +
>>> +  Status = SdCardGetCsd (PassThru, Rca, &Csd);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardIdentification: Executing SdCardGetCsd fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +
>>> +  Status = SdCardSelect (PassThru, Rca);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardIdentification: Selecting card fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +
>>> +  Status = SdCardGetScr (PassThru, Rca, &Scr);
>>> +  if (EFI_ERROR (Status)) {
>>> +    DEBUG ((
>>> +      DEBUG_ERROR,
>>> +      "SdCardIdentification: Executing SdCardGetScr fails with %r\n",
>>> +      Status
>>> +      ));
>>> +    return Status;
>>> +  }
>>> +
>>> +  //
>>> +  // Enter Data Tranfer Mode.
>>> +  //
>>> +  DEBUG ((DEBUG_INFO, "SdCardIdentification: Found a SD device\n"));
>>> +  Private->Slot[0].CardType = SdCardType;
>>> +
>>> +  Status = SdCardSetBusMode (DevBase, PassThru, Rca, S18r,
>> Scr.SdBusWidths);
>>> +  if (EFI_ERROR (Status)) {
>>> +    return Status;
>>> +  }
>>> +
>>> +  Private->Slot[0].Initialized = TRUE;
>>> +
>>> +  return Status;
>>> +}
>>> --
>>> 2.12.3
> 
> 
> 
>